低温条件下BAF+SPD组合工艺对滇池入湖河水的脱氮效果

吴伟龙; 杨璐华; 杨飞飞; 赵兰; 吴为中

环境工程学报

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吴伟龙, 杨璐华, 杨飞飞, 赵兰, 吴为中. 低温条件下BAF+SPD组合工艺对滇池入湖河水的脱氮效果[J]. 环境工程学报, 2013, 7(12): 4597-4602.

引用本文:

吴伟龙, 杨璐华, 杨飞飞, 赵兰, 吴为中. 低温条件下BAF+SPD组合工艺对滇池入湖河水的脱氮效果[J]. 环境工程学报, 2013, 7(12): 4597-4602.

Wu Weilong, Yang Luhua, Yang Feifei, Zhao Lan, Wu Weizhong. Effect of nitrogen removal of river water treatment using BAF+SPD combined process at low temperature[J]. Chinese Journal of Environmental Engineering, 2013, 7(12): 4597-4602.

Citation:

Wu Weilong, Yang Luhua, Yang Feifei, Zhao Lan, Wu Weizhong. Effect of nitrogen removal of river water treatment using BAF+SPD combined process at low temperature[J]. Chinese Journal of Environmental Engineering, 2013, 7(12): 4597-4602.

低温条件下BAF+SPD组合工艺对滇池入湖河水的脱氮效果

1.
北京大学环境科学与工程学院, 北京 100871
基金项目:
国家自然科学基金资助项目（50978001）

国家重大专项课题（2012ZX07102002）

国家公益项目（2010467012）
中图分类号: X522

Effect of nitrogen removal of river water treatment using BAF+SPD combined process at low temperature

1.
College of Environmental Sciences and Engineering, Peking University, Beijing 100871, China
Fund Project:

摘要: 为缓解湖泊富营养化问题，需进一步降低入湖河流氮的含量。针对滇池流域新运粮河的低C/N水质特征，研究了冬季低温条件下的微曝气生物滤池（BAF）及固相反硝化（SPD）组合异位脱氮工艺。结果表明，BAF+SPD组合工艺启动挂膜阶段，约3周后，NH4+-N的去除率达80%以上，而反硝化细菌增殖相对缓慢，约5周后，NO3--N的去除率达80%以上；稳定运行的低温阶段，除降雨时间外，NH4+-N平均去除率达80%，出水NH4+-N浓度3--N平均去除率达到85%以上，出水NO3--N浓度<1 mg/L；TN平均去除率达80%以上，出水TN浓度<2 mg/L，主要水质指标达到国家地表水Ⅴ类标准。
- 曝气生物滤池 /
- 固相反硝化 /
- 低温 /
- 脱氮
Abstract: In order to alleviate lake eutrophication problem, excessive nitrogen of inflowing river water need to be further reduced. The water of the New Yunliang River, one inflowing river of Dianchi Lake, was treated by the combined process of the biological aerated filter (BAF) and the solid-phase denitrifying (SPD) reactor at low temperature in winter, considering the low C/N ratio. Started from bio-film accreting stage, the average ammonia nitrogen (NH4+-N) removal rate of the BAF rose above 80% three weeks later and the nitrate nitrogen (NO3--N) removal rate of the SPD reactor reached over 87% five weeks later. During low temperature operating stage, the average NH4+-N removal rate and NO3--N removal rate maintained over 80% and 85%, respectively, except for rainy days. Both the effluent NH4+-N and NO3--N concentrations were below 1 mg/L. The average total nitrogen(TN) removal rate reached above 80% and the effluent TN concentration was below 2 mg/L. The main water quality index could meet levelⅤof the environment quality standards for surface water.
- biological aerated filter /
- solid-phase denitrifying /
- low temperature /
- nitrogen removal

[1]	昆明市环境保护局.昆明市环境质量报告2012. 2012
[2]	金竹静, 杨逢乐, 叶金利. 生物接触氧化法原位修复受污染河水的效果.中国给水排水, 2012, 28(3):36-39 Jin Z. J., Yang F. L., Ye J. L. In-situ remediation efficiency of polluted river water by biological contact oxidation process.China Water & Wastewater, 2012, 28(3):36-39(in Chinese)
[3]	谭南中. 城市污染河流低污染条件下生物处理实验研究.兰州:兰州交通大学硕士学位论文, 2011 Tan N. Z. Study on urban polluted river water at low temperature by biological technology. Lanzhou: Master's Degree Thesis of Lanzhou Jiaotong University, 2011(in Chinese)
[4]	莫文锐, 黄建洪, 田森林, 等. 氧化塘-潜流湿地处理低污染河水中试工程. 水处理技术, 2011, 37(12):83-85 Mo W. R, Huang J, H., Tian S. L., et al. A pilot project to treat slightly polluted river water by oxidation pond-subsurface constructed wetlant combined system. Technology of Water Treatment, 2011, 37(12):83-85(in Chinese)
[5]	叶海, 李森, 郑俊, 等. 多介质土壤层系统(MSL)启动性能研究. 环境科技, 2011, 24(5):1-4 Ye H., Li S., Zheng J., et al. Study on start-up performances of multi-soil-layering system(MSL). Environmental Sciences and Technology, 2011, 24(5):1-4(in Chinese)
[6]	魏才倢, 吴为中, 杨逢乐, 等. 多级土壤渗滤系统技术研究现状及进展. 环境科学学报. 2009, 29(7):1351-1357 Wei C. J., Wu W. Z., Yang F. L., et al. Multi-soil-layer treatment technology:Current status and future perspectives. Acta Scientiae Circumstantiae, 2009, 29(7):1351-1357(in Chinese)
[7]	张自杰, 林荣忱, 金儒霖. 排水工程下册(第4版).北京:中国建筑工业出版社, 2000
[8]	李金诗. 不同碳源、C/N比对系统反硝化影响研究. 武汉:武汉理工大学硕士学位论文, 2011 Li J. S. The research on denitrifying effect of different carbon source and C/N. Wuhan: Master's Degree Thesis of Wuhan University of Technology, 2011(in Chinese)
[9]	赵明明. 降解固相碳源菌株的选育及其酶学性质的研究. 长春: 东北师范大学硕士学位论文, 2005 Zhao M. M. Breeding of pinicillium sp. to degrade solid carbon source and the research of solid carbon source depolymerase. Changchun: Master's Degree Thesis of Northeast Normal University, 2005(in Chinese)
[10]	国家环境保护总局. 水和废水监测分析方法(第4版). 北京:中国环境科学出版社, 2002
[11]	马娟, 彭永臻, 王丽, 等. 温度对反硝化过程的影响以及pH值变化规律. 中国环境科学, 2008, 28(11):1004-1008 Ma J., Peng Y. Z., Wang L., et al. Effect of temperature on denitrification and profiles of pH during the process. China Environmetal Science, 2008, 28(11):1004-1008(in Chinese)
[12]	Carrera J., Baeza J. A., Vicent T., et al. Biological nitrogen removal of high-strength ammonium industrial wastewater with two-stage system. Water Research, 2003, 37(17):4211-4221
[13]	徐亚同. pH值、温度对反硝化的影响. 中国环境科学, 1994, 14(4):308-312 Xu Y. T. The influence of pH values and temperature on denitrification. China Environmental Science, 1994, 14(4):308-312(in Chinese)
[14]	张巍, 赵军, 郎咸明, 等.硝化细菌在不同温度下对氮素的去除效能研究. 环境科学与管理, 2010, 35(6):2709-2713 Zhang W., Zhao J., Lang X.M., et al.Study on the removal of nitrogen from wastewater using nitrobacteria at different temperature.Environmental Science and Management, 2010, 35(6):2709-2713(in Chinese)
[15]	Randall C. W., David Buth. Nitrite build-up in activated sludge resulting from temperature effects. Journal of Water Pollution Control Federation, 1984, 56(9):1039-1044
[16]	梅特卡夫, 埃迪. 废水处理工程及回用(第4版). 北京:化学工业出版社, 2004

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吴伟龙, 杨璐华, 杨飞飞, 赵兰, 吴为中. 低温条件下BAF+SPD组合工艺对滇池入湖河水的脱氮效果[J]. 环境工程学报, 2013, 7(12): 4597-4602.

引用本文:

吴伟龙, 杨璐华, 杨飞飞, 赵兰, 吴为中. 低温条件下BAF+SPD组合工艺对滇池入湖河水的脱氮效果[J]. 环境工程学报, 2013, 7(12): 4597-4602.

Citation:

低温条件下BAF+SPD组合工艺对滇池入湖河水的脱氮效果

1. 北京大学环境科学与工程学院, 北京 100871

收稿日期: 2013-01-30

基金项目:

国家自然科学基金资助项目（50978001）

国家重大专项课题（2012ZX07102002）

国家公益项目（2010467012）

关键词:

摘要: 为缓解湖泊富营养化问题，需进一步降低入湖河流氮的含量。针对滇池流域新运粮河的低C/N水质特征，研究了冬季低温条件下的微曝气生物滤池（BAF）及固相反硝化（SPD）组合异位脱氮工艺。结果表明，BAF+SPD组合工艺启动挂膜阶段，约3周后，NH4+-N的去除率达80%以上，而反硝化细菌增殖相对缓慢，约5周后，NO3--N的去除率达80%以上；稳定运行的低温阶段，除降雨时间外，NH4+-N平均去除率达80%，出水NH4+-N浓度3--N平均去除率达到85%以上，出水NO3--N浓度<1 mg/L；TN平均去除率达80%以上，出水TN浓度<2 mg/L，主要水质指标达到国家地表水Ⅴ类标准。

English Abstract

Effect of nitrogen removal of river water treatment using BAF+SPD combined process at low temperature

1. College of Environmental Sciences and Engineering, Peking University, Beijing 100871, China

Received Date: 2013-01-30

Fund Project:

Keywords:

Abstract: In order to alleviate lake eutrophication problem, excessive nitrogen of inflowing river water need to be further reduced. The water of the New Yunliang River, one inflowing river of Dianchi Lake, was treated by the combined process of the biological aerated filter (BAF) and the solid-phase denitrifying (SPD) reactor at low temperature in winter, considering the low C/N ratio. Started from bio-film accreting stage, the average ammonia nitrogen (NH4+-N) removal rate of the BAF rose above 80% three weeks later and the nitrate nitrogen (NO3--N) removal rate of the SPD reactor reached over 87% five weeks later. During low temperature operating stage, the average NH4+-N removal rate and NO3--N removal rate maintained over 80% and 85%, respectively, except for rainy days. Both the effluent NH4+-N and NO3--N concentrations were below 1 mg/L. The average total nitrogen(TN) removal rate reached above 80% and the effluent TN concentration was below 2 mg/L. The main water quality index could meet levelⅤof the environment quality standards for surface water.

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低温条件下BAF+SPD组合工艺对滇池入湖河水的脱氮效果

Effect of nitrogen removal of river water treatment using BAF+SPD combined process at low temperature

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低温条件下BAF+SPD组合工艺对滇池入湖河水的脱氮效果

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Effect of nitrogen removal of river water treatment using BAF+SPD combined process at low temperature

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