NO2--N和盐度对反硝化除磷及N2O释放的影响

吕永涛; 党文娟; 周亦桥; 廖正伟; 贺酰淑; 王磊

doi:10.12030/j.cjee.201711193

环境工程学报

NO2--N和盐度对反硝化除磷及N2O释放的影响

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吕永涛, 党文娟, 周亦桥, 廖正伟, 贺酰淑, 王磊. NO2--N和盐度对反硝化除磷及N2O释放的影响[J]. 环境工程学报, 2018, 12(6): 1651-1656. doi: 10.12030/j.cjee.201711193

引用本文:

吕永涛, 党文娟, 周亦桥, 廖正伟, 贺酰淑, 王磊. NO2--N和盐度对反硝化除磷及N2O释放的影响[J]. 环境工程学报, 2018, 12(6): 1651-1656. doi: 10.12030/j.cjee.201711193

LYU Yongtao, DANG Wenjuan, ZHOU Yiqiao, LIAO Zhengwei, HE Xianshu, WANG Lei. Effects of nitrite and salinity on efficiency of denitrification phosphorus removal system and nitrous oxide emissions[J]. Chinese Journal of Environmental Engineering, 2018, 12(6): 1651-1656. doi: 10.12030/j.cjee.201711193

Citation:

LYU Yongtao, DANG Wenjuan, ZHOU Yiqiao, LIAO Zhengwei, HE Xianshu, WANG Lei. Effects of nitrite and salinity on efficiency of denitrification phosphorus removal system and nitrous oxide emissions[J]. Chinese Journal of Environmental Engineering, 2018, 12(6): 1651-1656. doi: 10.12030/j.cjee.201711193

NO2--N和盐度对反硝化除磷及N2O释放的影响

1.
西安建筑科技大学环境与市政工程学院，西安 710055
2.
陕西省水务集团水务科技有限公司，西安 710000
基金项目:
国家自然科学基金资助项目(51108367)

陕西省建设厅科技发展计划项目(2015-K61)

Effects of nitrite and salinity on efficiency of denitrification phosphorus removal system and nitrous oxide emissions

1.
School of Environmental and Municipal Engineering, Xi'an University of Architecture and Technology, Xi'an 710055,China
2.
Shaanxi Water Affair Science and Technology Co.Ltd., Xi'an 710000, China
Fund Project:

摘要: 以驯化好的反硝化除磷污泥为研究对象，通过批式实验考察了NO2--N和NaCl浓度对反硝化除磷率及N2O释放的影响。当进水亚硝酸盐的浓度由15 mg·L-1升高至25和40 mg·L-1时，除磷率由68.81%±0.5%降至66.25%±1%和62.88%±0.8%，TN的去除率由90.6%±0.7%降至74.55%±1.5%和51.65%±2%，N2O释放量分别为4.82、13.83和17.06 mg。当NaCl质量分数为0%、0.5%、1%和2%时，TN的去除率由74.55%±1%降至68%±2%、64.2%±1%和54.3%±2.5%，除磷率由66.37%±1.5%降至61.29%±1%、50.47%±2%和36.7%±0.5%，N2O-N转化率为41.1%±2%、41.4%±2.5%、48.94%±0.6%和51.03%±2%。因此，NO2--N和NaCl质量分数的升高均会降低脱氮除磷效率，但增加了N2O释放量；兼顾脱氮除磷效率前提下，NO2--N为25 mg·L-1、NaCl质量分数为1%是N2O释放量增加的优化条件。
- 反硝化除磷 /
- N2O /
- 盐度 /
- NO2--N
Abstract: The effects of nitrite and salinity on denitrifying phosphorus removal and nitrous oxide emissions were investigated by batch experiments. When the nitrite concentration increased from 15 to 25 and 40 mg·L-1, the phosphorus removal efficiency decreased from 68.81%±0.5% to 66.25%±1% and 62.88%±0.8%, and the total nitrogen removal efficiency decreased from 90.6%±0.7% to 74.55%±1.5% and 51.65%±2%. However, the nitrous oxide emissions increased from 8.82 to 13.83 and 17.06 mg, respectively. With the increase of salinity concentration from 0% to 0.5%, 1% and 2%, the total nitrogen removal efficiency decreased from 74.55%±1% to 68%±2% , 64.2%±1% and 54.3% ± 2.5%, and the phosphorus removal rates decreased from 66.37%±1.5% to 61.29%±1%, 50.47%±2% and 36.7%±0.5%. Correspondingly, 41.1%±1.5%, 41.4%±2.5%, 48.94%± 0.6% and 51.03%±2% of the total nitrogen was converted to nitrous oxide, respectively. In summary, the removal efficiency of nitrogen and phosphorus decreased simultaneously with the increase of the nitrite and salinity concentration, while the nitrous oxide emissions increased. Therefore, the optimum condition was when the nitrite and NaCl concentration were 25 mg·L-1 and 1%, which was better for both the nitrous oxide accumulation and the nitrogen and phosphate removal.
- denitrifying dephosphatation /
- nitrous oxide /
- salinity /
- nitrite nitrogen

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NO2--N和盐度对反硝化除磷及N2O释放的影响

1. 西安建筑科技大学环境与市政工程学院，西安 710055
2. 陕西省水务集团水务科技有限公司，西安 710000

基金项目:

国家自然科学基金资助项目(51108367)

陕西省建设厅科技发展计划项目(2015-K61)

关键词:

反硝化除磷 /
N2O /
盐度 /
NO2--N

摘要: 以驯化好的反硝化除磷污泥为研究对象，通过批式实验考察了NO2--N和NaCl浓度对反硝化除磷率及N2O释放的影响。当进水亚硝酸盐的浓度由15 mg·L-1升高至25和40 mg·L-1时，除磷率由68.81%±0.5%降至66.25%±1%和62.88%±0.8%，TN的去除率由90.6%±0.7%降至74.55%±1.5%和51.65%±2%，N2O释放量分别为4.82、13.83和17.06 mg。当NaCl质量分数为0%、0.5%、1%和2%时，TN的去除率由74.55%±1%降至68%±2%、64.2%±1%和54.3%±2.5%，除磷率由66.37%±1.5%降至61.29%±1%、50.47%±2%和36.7%±0.5%，N2O-N转化率为41.1%±2%、41.4%±2.5%、48.94%±0.6%和51.03%±2%。因此，NO2--N和NaCl质量分数的升高均会降低脱氮除磷效率，但增加了N2O释放量；兼顾脱氮除磷效率前提下，NO2--N为25 mg·L-1、NaCl质量分数为1%是N2O释放量增加的优化条件。

English Abstract

Effects of nitrite and salinity on efficiency of denitrification phosphorus removal system and nitrous oxide emissions

1. School of Environmental and Municipal Engineering, Xi'an University of Architecture and Technology, Xi'an 710055,China
2. Shaanxi Water Affair Science and Technology Co.Ltd., Xi'an 710000, China

Fund Project:

Keywords:

Abstract: The effects of nitrite and salinity on denitrifying phosphorus removal and nitrous oxide emissions were investigated by batch experiments. When the nitrite concentration increased from 15 to 25 and 40 mg·L-1, the phosphorus removal efficiency decreased from 68.81%±0.5% to 66.25%±1% and 62.88%±0.8%, and the total nitrogen removal efficiency decreased from 90.6%±0.7% to 74.55%±1.5% and 51.65%±2%. However, the nitrous oxide emissions increased from 8.82 to 13.83 and 17.06 mg, respectively. With the increase of salinity concentration from 0% to 0.5%, 1% and 2%, the total nitrogen removal efficiency decreased from 74.55%±1% to 68%±2% , 64.2%±1% and 54.3% ± 2.5%, and the phosphorus removal rates decreased from 66.37%±1.5% to 61.29%±1%, 50.47%±2% and 36.7%±0.5%. Correspondingly, 41.1%±1.5%, 41.4%±2.5%, 48.94%± 0.6% and 51.03%±2% of the total nitrogen was converted to nitrous oxide, respectively. In summary, the removal efficiency of nitrogen and phosphorus decreased simultaneously with the increase of the nitrite and salinity concentration, while the nitrous oxide emissions increased. Therefore, the optimum condition was when the nitrite and NaCl concentration were 25 mg·L-1 and 1%, which was better for both the nitrous oxide accumulation and the nitrogen and phosphate removal.

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NO2--N和盐度对反硝化除磷及N2O释放的影响

Effects of nitrite and salinity on efficiency of denitrification phosphorus removal system and nitrous oxide emissions

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NO2--N和盐度对反硝化除磷及N2O释放的影响

English Abstract

Effects of nitrite and salinity on efficiency of denitrification phosphorus removal system and nitrous oxide emissions

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