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上向流曝气生物滤池中有机氮沿程转化规律与生物特性研究
引用本文:张文艺, 夏绍凤, 董清玉, 张仲敏, 韩晓晶. 上向流曝气生物滤池中有机氮沿程转化规律与生物特性研究[J]. 农业工程学报, 2008, 24(6): 234-238.
作者姓名:张文艺  夏绍凤  董清玉  张仲敏  韩晓晶
作者单位:1.江苏工业学院环境工程系,常州 213016;2.安徽工业大学环境工程系,马鞍山 243002;3.污染控制与资源化研究国家重点实验室,南京大学环境学院,南京 210093
基金项目:国家高技术研究发展计划(863计划)
摘    要:为揭示上向流曝气生物滤池中有机氮沿程转化规律及其微生物特性,优化滤池的设计与运行,以有机氮废水为处理对象,在水力负荷0.329~0.50 5m3/(m2?h)、气水比4-5:1、沿程DO 3.0~5.85 mg/L、不加任何有机碳源的情况下,研究氮元素沿程转化规律。结果表明:曝气生物滤池内有机氮氨化与硝化同步进行,90%以上的溶解性有机氮(DON)转化为NO3-N;滤池沿程各段对于TKN的降解进程(TKN→NH3-N)与NH3-N的硝化进程(NH3-N→NO2--N→NO3--N)一致;微生物总量沿水流方向呈逐渐递减趋势;生物耗氧速率(OUR)沿程逐渐减小,OUR数量级为101 mg/(g?h)。该研究可为硝化滤池的设计提供理论依据以及滤池运行参数的优化提供技术支持。

关 键 词:曝气生物滤池  溶解性有机氮  氨化作用  硝化作用  生物耗氧速率
收稿时间:2006-12-12
修稿时间:2008-05-16

Regularity of organic nitrogen transformation and biological characteristics along up-flow biological aerated filter reactor
Regularity of organic nitrogen transformation and biological characteristics along up-flow biological aerated filter reactor[J]. Transactions of the Chinese Society of Agricultural Engineering (Transactions of the CSAE), 2008, 24(6): 234-238.
Authors:Zhang Wenyi  Xia Shaofeng  Dong Qingyu  Zhang Zhongmin  Han Xiaojing
Abstract:In order to study the characteristics of microbe and organic nitrogen transformation along the reactor of Up-flow Biological Aerated Filter(BAF) and optimize the design and work of the filter with the sewage containing organic nitrogen. Five sampling ports should be set along the reactor. And at 0.329~0.505 m3/(m2?h) of hydraulic loading, (4~5)︰1 of the air/water ratio, 3.0~5.8 mg/L along the reactor of DO with no organic carbon. The results showed that simultaneous nitrification and ammonization were the major process in the reactor. More than 90% DON was transformed into NO3--N. The ammonization rate was obviously faster than nitrification rate among 0~0.29 of the relative attitude of the filter, however, both nitrification and ammonization rate were declined and tend to balance finally as the height of filter media raised. There was few NO2--N left along reactor. It was found that the biomass of each segment decreased from the bottom to the top of the reactor. Each segment along reactor could form steady micro-ecosystem. A decreasing trend of OUR was observed at the order of 101 mgO2/(g?h) in the BAF reactor. The study can provide theoretic basis for the design of the reactor and technique for the optimization of working parameters.
Keywords:Biological Aerated Filter(BAF)   Disssolved Organic Nitrogen (DON)    ammonization   nitrification   Oxygen Uptake Rate(OUR)
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