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机构地区:[1]东北电力大学化学工程学院,吉林吉林132012
出 处:《化学工程》2012年第5期6-10,共5页Chemical Engineering(China)
基 金:东北电力大学博士科研启动基金(BSJXM-201112);吉林省科技发展计划项目(20110405);吉林市科技计划项目(201132402);吉林省教育厅"十二五"科学技术研究项目(吉教科合字2012-95)
摘 要:为了提高生物脱氮的效率,研究采用序批式活性污泥法(SBR工艺)考察碳氮质量比w(C/N)与氨氮负荷对同步硝化反硝化的影响。结果表明:当w(C/N)为5.6,氨氮负荷为0.024 g/(g.d),碳源快速消耗,SBR工艺较难实现同步硝化反硝化,同步硝化反硝化率只能够达到0.76%。当w(C/N)为10.5,氨氮负荷为0.024 g/(g.d)时,SBR系统能够实现同步硝化反硝化,同步硝化反硝化率达到97.6%,NH4+-N和COD去除率均接近100%;当w(C/N)为16.3,氨氮负荷为0.024 g/(g.d)时,同步硝化反硝化率为94.5%,增加外加碳源的成本。同步硝化反硝化可以取代二段独立的硝化和反硝化过程,节省运行费用。In order to improve the efficiency of biological denitrification, the effect of carbon-to-nitrogen mass ratio w (C/N) and ammonium nitrogen loading rate on simultaneous nitrification and denitrification (SND) was investigated by using a sequencing batch reactor (SBR). The results show that carbon source is consumed rapidly and SND efficiency is only 0.76% when w(C/N) is 5.6 and ammonium nitrogen loading rate is 0.024 g/(g ·d). SND can be achieved and SND efficiency is 97.6% when C/N is 10.5 and ammonium nitrogen loading rate is O. 024 g/(g · d), and the removal efficiency of NH4+-N and COD is nearly 100%. Furthermore, SND efficiency is 94.5% and the cost of carbon source is improved when w(C/N) is 16.3 and ammonium nitrogen loading rate is O. 024 g/( g · d). SND can replace the two-stage separate nitrification and denitrification process and save the operation cost.
关 键 词:同步硝化反硝化(SND) 碳氮质量比 氨氮负荷
分 类 号:X703[环境科学与工程—环境工程]
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