研究论文
王连旭,侯朝阳,王俊,雷振,李倩,陈荣.厌氧膜生物反应器耦联部分亚硝化/厌氧氨氧化用于污水处理研究[J].环境科学学报,2021,41(6):2092-2098
厌氧膜生物反应器耦联部分亚硝化/厌氧氨氧化用于污水处理研究
- Study on characteristics of coupled anaerobic membrane bioreactor and PN/A in domestic wastewater treatment
- 基金项目:国家重点研发计划(No.2017YFE0127300);陕西省重点研发计划国际合作项目(No.2018KWZ-06);陕西省创新团队项目(No.2019TD-025)
- 作者
- 单位
- 王连旭
- 西安建筑科技大学, 西安 710055
- 侯朝阳
- 西安建筑科技大学, 西安 710055
- 王俊
- 西安建筑科技大学, 西安 710055
- 雷振
- 西安建筑科技大学, 西安 710055
- 李倩
- 西安建筑科技大学, 西安 710055
- 陈荣
- 西安建筑科技大学, 西安 710055
- 摘要:本研究构建了厌氧膜生物反应器(AnMBR)-部分亚硝化/厌氧氨氧化(PN/Anammox)污水处理工艺,以探究AnMBR-PN/A工艺处理效果最佳的水力停留时间(HRT).AnMBR将厌氧生物处理与膜分离技术相结合实现有机物去除,AnMBR出水NH4+-N通过PN部分转化为NO2--N,最终通过NO2--N氧化剩余NH4+-N去除.实验结果表明:在HRT=11.2 h时,AnMBR-PN/A工艺化学需氧量(COD)去除率稳定在97%以上,COD转化为CH4效率超过77.5%,总氮(TN)去除率为78%,出水COD和TN浓度分别低于14和11 mg·L-1.AnMBR段COD去除率达到95%,平均甲烷产率为0.39 L·L-1·d-1.PN段实现了NO2--N的高效积累,其出水中NO2-/NH4+为0.91±0.11.Anammox段出水中的NO2--N、NH4+-N和NO3--N浓度分别低于1.0、4.9和5.1 mg·L-1.高通量测序结果表明PN段氨氧化菌主要为Nitrosomonas,丰度为7.09%,Anammox段主要微生物为Candidatus Brocadia,丰度高达21.01%.本研究构建的AnMBR-PN/A工艺实现了污水处理过程的高效能源回收和深度自养脱氮,研究成果为工程应用提供了理论支撑.
- Abstract:An anaerobic membrane bioreactor (AnMBR)-partial nitritation/anaerobic ammonia oxidation (PN/Anammox) system was built in this study to investigate the optimal hydraulic retention time (HRT) for system operation. The AnMBR combines anaerobic biological treatment and membrane separation to realize organics removal; NH4+-N was partially transformed into NO2--N through PN, then residual NH4+-N was oxidized by NO2--N to remove nitrogen. At an HRT of 11.2 h, chemical oxygen demand (COD) removal efficiency of over 97% was achieved for the coupled system, with 77.5% of the influent COD was recovered as CH4; a total nitrogen (TN) removal rate of was 78% by the PN/A, with the effluent COD and TN concentrations lower than 14 and 11 mg·L-1, respectively. The AnMBR reached a total COD removal efficiency of 95%, and the average methane production rate reached 0.39 L·L-1·d-1. PN achieved efficient accumulation of NO2--N, and the NO2-/NH4+ in effluent was 0.91±0.11. NO2--N, NH4+-N and NO3--N concentrations in the effluent of Anammox reactor were lower than 1.0, 4.9 and 5.1 mg·L-1, respectively. High-throughput sequencing analysis results indicated that ammonia-oxidizing bacteria in the PN reactor was mainly Nitrosomonas (7.09%), while the predominant bacteria in the Anammox reactor was Candidatus Brocadia (21.01%). The AnMBR-PN/A system built in this study realized efficient energy recovery and enhanced nitrogen removal, which provides theoretical basis for the future engineering application of this technology.
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