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SBBR工艺反硝化过程中N_2O和NO的产生情况
引用本文:梁雪,赵剑强,高坤,葛光环,赵日祥. SBBR工艺反硝化过程中N_2O和NO的产生情况[J]. 化工环保, 2017, 37(6): 648-654. DOI: 10.3969/j.issn.1006-1878.2017.06.009
作者姓名:梁雪  赵剑强  高坤  葛光环  赵日祥
作者单位:长安大学 环境科学与工程学院,陕西 西安 710054
基金项目:国家自然科学基金项目(51778057)
摘    要:利用序批式生物膜反应器(SBBR),以葡萄糖为碳源(COD为500 mg/L),考察了不同碳氮比(COD与TN之比)、不同电子受体(NO_2~-或NO_3~-)、不同投加方式(碳源与氮源同步投加或投加碳源60 min后再投加氮源的异步投加)对N_2O产生情况的影响,以及碳氮比为2时NO的产生情况。实验结果表明:不论同步投加还是异步投加,两种电子受体的N_2O-N生成率均随着碳氮比的增大而下降;不同碳氮比下,投加NO2-时的N_2O-N生成率均高于投加NO3-时,异步投加时的N_2O-N生成率均大于同步投加时。说明低碳氮比、高浓度NO2-和胞内贮存物作碳源是反硝化过程中N_2O产生和大量积累的关键因素。此外,NO2-为电子受体时的NO-N生成率高于NO3-为电子受体时。

关 键 词:反硝化  电子受体  电子供体  序批式生物膜反应器  NO  N2O  
收稿时间:2017-04-14

Production of N2O and NO during denitrification process in SBBR
Liang Xue,Zhao Jianqiang,Gao Kun,Ge Guanghuan,Zhao Rixiang. Production of N2O and NO during denitrification process in SBBR[J]. Environmental Protection of Chemical Industry, 2017, 37(6): 648-654. DOI: 10.3969/j.issn.1006-1878.2017.06.009
Authors:Liang Xue  Zhao Jianqiang  Gao Kun  Ge Guanghuan  Zhao Rixiang
Affiliation:School of Environmental Science and Engineering,Chang’an University,Xi'an Shaanxi 710054,China
Abstract:A laboratory-scale sequencing batch biofilm reactor(SBBR)with glucose as carbon source(COD=500 mg/L)was operated to study the effects of the different C-N ratio(COD:TN),electron acceptors(NO2- or NO3-)and addition patterns(simultaneous addition as adding nitrogen source and carbon source together or asynchronous addition as adding nitrogen source 60 minutes later than the carbon source)on N2O emission. The situation of NO emission at 2 of C-N ratio was also studied. The experimental results showed that:By both addition patterns,the N2O-N generation rate of the two electron acceptors were all decreased with the increase of C-N ratio;Under different C-N ratio,the N2O-N generation rates with NO2- addition was higher than that with NO3- addition,an d the N2O-N generation rates by asynchronous addition was larger than that by simultaneous addition. These results indicated that low C-N ratio,high concentration NO2- and using intracellular stores as carbon source were the key factors for N2O production and accumulation during the denitrification process. And the NO-N conversion rate using NO2- as electron acceptor was higher than that using NO3- as electron acceptor.
Keywords:denitrification  electron acceptor  electron donor  sequencing biofilm batch reactor(SBBR)  NO  N2O  
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