生物膜气升式悬浮（BAS）反应器中使用可生物降解载体材料进行同步硝化/反硝化。

Simultaneous nitrification/denitrification in a biofilm airlift suspension (BAS) reactor with biodegradable carrier material.

机构信息

Institute of Water Quality Control, Technische Universität München, Am Coulombwall, Garching, Germany.

出版信息

Water Res. 2009 Oct;43(18):4461-8. doi: 10.1016/j.watres.2009.07.005. Epub 2009 Jul 27.

DOI:10.1016/j.watres.2009.07.005

PMID:19640560

Abstract

Simultaneous nitrification and denitrification in one reactor has been realized with different methods in the past. The usage of biodegradable biocompounds as biofilm carriers is new. The biocompounds were designed out of two polymers having different degradability. Together with suspended autotrophic biomass the biocompound particles were fluidized in an airlift reactor. Process water from sludge dewatering with a mean ammonium nitrogen concentration of 1150 mg L(-1) was treated in a two stage system which achieved a nitrogen removal of 75%. Batch experiments clearly indicate that nitrification can be localized in the suspended biomass and denitrification in the pore structure of the slowly degraded biocompounds. Images taken with CLSM prove the concept of the pore structure within the biocompounds, which provide both a heterotrophic biofilm and carbon source.

摘要

过去已经有多种方法实现了一个反应器中的同步硝化反硝化。使用可生物降解的生物复合材料作为生物膜载体是一种新方法。这些生物复合材料由两种具有不同降解性的聚合物设计而成。生物复合材料颗粒与悬浮自养生物量一起在气升式反应器中流化。用平均氨氮浓度为 1150mg/L 的污泥脱水过程水在两段式系统中进行处理，实现了 75%的氮去除率。批处理实验清楚地表明，硝化作用可以定位于悬浮生物量中，反硝化作用可以定位于缓慢降解的生物复合材料的孔隙结构中。共聚焦激光扫描显微镜拍摄的图像证明了生物复合材料中的孔隙结构的概念，该结构既提供了异养生物膜，也提供了碳源。

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生物膜气升式悬浮（BAS）反应器中使用可生物降解载体材料进行同步硝化/反硝化。

Simultaneous nitrification/denitrification in a biofilm airlift suspension (BAS) reactor with biodegradable carrier material.

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