[1]赵珂鑫,王怡,李彬娟,等.氯酸钾对两段式PN/A工艺处理低氨氮废水的影响[J].中国给水排水,2024,40(9):20-25.
 ZHAOKe-xin,WANGYi,LIBin-juan,et al.Effect of Potassium Chlorate on Two-stage Partial Nitritation/Anammox for Treating Low Ammonia Nitrogen Wastewater[J].China Water & Wastewater,2024,40(9):20-25.
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氯酸钾对两段式PN/A工艺处理低氨氮废水的影响

中国给水排水[ISSN:1000-4062/CN:12-1073/TU] 卷: 第40卷 期数: 2024年第9期 页码: 20-25 栏目: 出版日期: 2024-05-01
Title:
Effect of Potassium Chlorate on Two-stage Partial Nitritation/Anammox for Treating Low Ammonia Nitrogen Wastewater
作者:
赵珂鑫1, 王怡1, 李彬娟1, 高丽娟2, 柴宝华2, 韩晓峰2, 寇晓梅2, 庄鹏宇2
(1.西安建筑科技大学 环境与市政工程学院,陕西 西安 710055;2.中国电建集团西北勘测设计研究院有限公司,陕西 西安 710065)
Author(s):
ZHAO Ke-xin1, WANG Yi1, LI Bin-juan1, GAO Li-juan2, CHAI Bao-hua2, HAN Xiao-feng2, KOU Xiao-mei2, ZHUANG Peng-yu2
(1. School of Environmental and Municipal Engineering, Xi’an University of Architecture and Technology, Xi’an 710055, China; 2. PowerChina Northwest Engineering Corporation Limited, Xi’an 710065, China)
关键词:
部分亚硝化 厌氧氨氧化 氯酸钾 低氨氮废水
Keywords:
partial nitritation anammox potassium chlorate low ammonia nitrogen wastewater
摘要:
为考察添加氯酸钾对两段式部分亚硝化/厌氧氨氧化(PN/A)生物膜反应器处理低氨氮废水的影响,首先在低氨氮浓度下建立并采取不同措施维持部分亚硝化,然后在添加氯酸钾条件下降低温度并将PN段出水作为A段进水耦合运行。结果发现,在进水NH4+-N为60 mg/L、氮负荷为1.44 kgN/(m3·d)、温度为20 ℃、曝气量为90 mL/min的条件下,连续添加1 mmol/L氯酸钾可成功实现PN反应器的稳定运行,NO2--N积累率高达88.72%,出水NO2--N/NH4+-N值在1.0~1.32之间,满足A段反应器进水氮基质要求,其原因在于PN反应器主要功能区生物膜和活性污泥中AOB主导菌丰度分别为7.70%和9.60%,NOB主导菌丰度分别为1.07%和0.79%,因而使氨氧化速率(AUR)与亚硝酸盐氧化速率(NUR)的比值分别为4.52和8.61。PN段出水进入A段反应器后,氮去除负荷由初始的0.85 kgN/(m3·d)降至0.07 kgN/(m3·d),表明添加氯酸钾的部分亚硝化出水对后续厌氧氨氧化产生了破坏性影响。因此,氯酸钾并不适宜作为PN/A工艺中NOB的抑制剂。
Abstract:
In order to investigate the effect of potassium chlorate (KClO3) addition on the treatment of low ammonia nitrogen wastewater in a two-stage partial nitritation/anammox (PN/A) biofilm reactor, the PN at low ammonia nitrogen concentration was firstly established and maintained under different conditions. Finally, the temperature was lowered under the condition of KClO3 addition and the PN effluent was coupled as anammox influent. The results showed that the stable operation of PN reactor could be achieved successfully by adding 1 mmol/L KClO3 continuously under the conditions of influent NH4+-N of 60 mg/L, nitrogen load of 1.44 kgN/(m3·d), temperature of 20 ℃ and aeration rate of 90 mL/min. The nitrite accumulation rate was as high as 88.72%, and the ratio of NO2--N to NH4+-N in effluent was kept between 1.0 and 1.32, which could meet the influent nitrogen substrate requirements of the anammox reactor. This could be ascribed to that the abundance of AOB-dominant bacteria in biofilm and activated sludge in the main functional area of the PN reactor were 7.70% and 9.60% respectively, while the abundance of NOB-dominant bacteria were 1.07% and 0.79% respectively, leading the ratios of AUR to NUR were 4.52 and 8.61 respectively. After the PN effluent entered the anammox reactor, the nitrogen removal load decreased from 0.85 kgN/(m3·d) to 0.07 kgN/(m3·d), which indicated that the PN effluent with KClO3 addition had a destructive effect on the subsequent anammox reaction. Therefore, KClO3 is not suitable to inhibit NOB in PN/A process.

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更新日期/Last Update: 2024-05-01