Floatation of flocculent and granular sludge in a high-loaded anammox reactor

Hui Chen; Chun Ma; Guang-Feng Yang; Hui-Zhong Wang; Zhi-Ming Yu; Ren-Cun Jin

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Floatation of flocculent and granular sludge in a high-loaded anammox reactor

机译：絮凝剂和颗粒污泥在高负荷厌氧氨氧化反应器中的浮选

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The floatation of flocculent and granular sludge was investigated in this study. An anaerobic ammonium oxidation (anammox) upflow anaerobic sludge blanket (UASB) reactor was operated for 665 days. During this time, the maximum nitrogen removal rate was 52.6 kgN m~(-3) d~(-1). Floccule floatation occurred between days 100 and 140, which potentially resulted from the sudden increase in gas yield and the poor settling ability of the floccules. Increasing the shear rate from 0.084 to 0.135 s~(-1) was effective at eliminating floccule floatation. In addition, granule floatation occurred between days 572 and 665, which likely resulted from the formation of hollows within the granules. Floatation may be effectively prevented by maintaining a shear rate of more than 0.778 s~(-1). Furthermore, the mechanisms of granule floatation and the floatation processes were proposed. Overall, controlling the shear force may effectively overcome sludge floatation.

机译：本研究对絮凝和颗粒污泥的浮选进行了研究。厌氧铵氧化（anammox）上流厌氧污泥层（UASB）反应器运行665天。在此期间，最大脱氮率是52.6kgN m·（-3）d·（-1）。絮凝物的漂浮发生在第100天到140天之间，这可能是由于气体产量的突然增加和絮凝物的沉降能力差所致。将剪切速率从0.084增加到0.135 s〜（-1）可以有效消除絮凝物的漂浮。此外，颗粒的漂浮在第572天至第665天之间发生，这很可能是由于颗粒内形成了空洞所致。保持大于0.778 s〜（-1）的剪切速率可以有效地防止浮起。此外，提出了颗粒浮选的机理和浮选过程。总体而言，控制剪切力可以有效克服污泥的漂浮。

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《Bioresource Technology: Biomass, Bioenergy, Biowastes, Conversion Technologies, Biotransformations, Production Technologies》 |2014年第null期|共7页
作者
Hui Chen; Chun Ma; Guang-Feng Yang; Hui-Zhong Wang; Zhi-Ming Yu; Ren-Cun Jin;
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正文语种 eng
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Anammox; Upflow anaerobic sludge blanket; High-loaded reactor; Sludge floatation; Shear rate;

机译：厌氧氨氧化;上流厌氧污泥层;高负荷反应器;污泥浮选;剪切率;

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1. Floatation of flocculent and granular sludge in a high-loaded anammox reactor [J] . Hui Chen, Chun Ma, Guang-Feng Yang, Bioresource Technology: Biomass, Bioenergy, Biowastes, Conversion Technologies, Biotransformations, Production Technologies . 2014,第Null期

机译：絮凝剂和颗粒污泥在高负荷厌氧氨氧化反应器中的浮选
2. Performance of high-loaded ANAMMOX UASB reactors containing granular sludge [J] . Chong-Jian Tang, Ping Zheng, Cai-Hua Wang, Water Research . 2011,第1期

机译：含颗粒污泥的高负荷ANAMMOX UASB反应器的性能
3. Floatation and control of granular sludge in a high-rate anammox reactor [J] . Jianwei Chen, Qixing Ji, Ping Zheng, Water Research . 2010,第11期

机译：高速厌氧氨氧化反应器中颗粒污泥的浮选与控制
4. Improved nitrogen removal in upflow anaerobic sludge blanket (UASB) reactors by incorporation of Anammox bacteria into the granular sludge [C] . J.E. Schmidt, D.J. Batstone, I. Angelidaki, IWA International Conference on Biofilm Systems . 2004

机译：通过将厌氧细菌掺入粒状污泥中，改善浑浊的厌氧污泥毯（UASB）反应器中的氮气去除
5. Nitrification Bioaugmentation in Mainstream Flocculent Activated Sludge Systems Using Sidestream Aerobic Granular Sludge [D] . Figdore, Bryce A. 2017

机译：使用侧沟有氧颗粒污泥的主流漂移活性污泥系统中的硝化生物沉积
6. Start-Up Characteristics of a Granule-Based Anammox UASB Reactor Seeded with Anaerobic Granular Sludge [O] . Lei Xiong, Yun-Yan Wang, Chong-Jian Tang, 2006

机译：基于颗粒厌氧颗粒污泥的厌氧UASB反应器的启动特性
7. Comparison of performance, microorganism populations, and bio-physiochemical properties of granular and flocculent sludge from denitrifying phosphorus removal reactors [O] . Wang, Yayi, Jiang, Xuxin, Wang, Hong, 2015

机译：脱氮除磷反应器颗粒和絮凝污泥的性能，微生物种群和生物物理化学特性的比较
8. Selenium Speciation in Biofilm from Granular Sludge Bed Reactors Used for Wastwater Treatment [R] . Hullenbusch, E. V. 2006

机译：用于废水处理的颗粒污泥床反应器中生物膜中的硒形态

Floatation of flocculent and granular sludge in a high-loaded anammox reactor

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