焦点提醒：厌氧情况对UNITANK工艺机能的影响 董姗燕1，2，陈刚1，池春榕1，刘祖文1，2，陈奇春3，万励谦3(1.江西理工年夜学建筑与测绘项目学院，江西赣州341000；2. 江西理工年夜学赣江流域水质平安保障项目手艺研究中间，江西赣州341000；3.江西洪城水业环保无限公司，江西南昌330000)

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• English上一篇下一篇PDF下载[1]董姗燕,陈刚,池春榕,等.厌氧情况对UNITANK工艺机能的影响[J].中国给水排水,2018,34(21):74-79.　DONG Shan yan,CHEN Gang,CHI Chun rong,et al.Effect of Anaerobic Environment on Performance of UNITANK Process[J].China Water & Wastewater,2018,34(21):74-79.点击复制

  厌氧情况对UNITANK工艺机能的影响中国给水排水[ISSN:1000-4062/CN:12-1073/TU]卷:第34卷期数:2018年21期页码:74-79栏目:手艺总结出书日期:2018-10-20

  Title:

  Effect of Anaerobic Environment on Performance of UNITANK Process

  文章编号:

  1000-4602(2018)21-0074-06

  作者:

  董姗燕^{1，2，陈刚1，池春榕1，刘祖文1，2，陈奇春3，万励谦3}

  (1.江西理工年夜学建筑与测绘项目学院，江西赣州341000；2. 江西理工年夜学赣江流域水质平安保障项目手艺研究中间，江西赣州341000；3.江西洪城水业环保无限公司，江西南昌330000)

  Author(s):

  DONG Shan yan^{1，2,CHEN Gang1,CHI Chun rong1,LIU Zu wen1，2,CHEN Qi chun3,WAN Li qian3}

  (1.School of Architectural and Surveying & Mapping Engineering, Jiangxi University of Science and Technology, Ganzhou 341000, China; 2. Research Center for Water Quality Security Technology at Ganjiang River Basin, Jiangxi University of Science and Technology, Ganzhou 341000, China; 3. Environmental P����Ϸapprotection Co. Ltd. Jiangxi Seong Water Industry, Nanchang 330000, China)

  要害词:

  UNITANK工艺;厌氧时候;脱氮除磷;城市污水

  Keywords:

  UNITANK process;anaerobic time;nitrogen and phosphorus removal;municipal sewage

  分类号:

  TU992.3

  文献标记码:

  C

  摘要:

  以赣南地域低碳源现实城市污水为研究对象，阐发了UNITANK工艺中边池厌氧时候对系统脱氮除磷机能的影响。成果注解，当内回流比为100%时，跟着边池厌氧时候的增添，TN去除率显现先增添后减小的趋向，而TP去除率则逐步增年夜；边池厌氧时候对COD、NH3-N的去除结果影响较小。当厌氧时候为60 min时，出水COD、NH3-N、TN、TP的平均浓度别离为11.07、0.93、11.78、0.85 mg/L，除TP外其他3项目标均优在《城镇污水处置厂污染物排放尺度》（GB 18918—2002）的一级A尺度要求；经由过程考查实验装配边池半周期内各组分浓度的动态转变，在边池厌氧时候为100 min的前提下，厌氧释磷现象最为较着，边池NO-2-N堆集浓度最高，边池具有反硝化进程和释磷进程对碳源的合作问题。

  Abstract:

  The effect of the anaerobic time in the side tank on the efficiency of nitrogen and phosphorus removal of the UNITANK process was investigated based on the actual municipal sewage from the south Jiangxi area. The results showed that when the internal reflux ratio was 100%, with the increase of the anaerobic time in the side tank, the removal rate of TN was firstly increased and then decreased, while the removal rate of TP increased gradually. The anaerobic time in the side tank had negligible effect on the removal efficiency of COD and NH3-N. When the anaerobic time was 60 min, the average concentrations of effluent COD, NH3-N, TN and TP were 11.07 mg/L, 0.93 mg/L, 11.78 mg/L and 0.85 mg/L, respectively. All indicators except TP had satisfied the first level A standard in the Discharge Standards of Pollutants for Municipal Wastewater Treatment Plant (GB 18918-2002). The dynamic changes of the component concentrations in the half cycle of the side tank were investigated. When the anaerobic time in the side tank was 100 min, the anaerobic phosphorus release was obvious, and the concentration of NO-2-N in the side tank was at the highest level. The processes of denitrification and phosphorus release in the side tank competed for the carbon source.

  参考文献/References:

  ［1］罗隽,周秀秀,林方敏,等. 南边某污水厂UNITANK工艺的活性污泥性状评估［J］. 中国给水排水,2016,32(1):31-34. Luo Jun,Zhou Xiuxiu,Lin Fangmin,et al. Evaluation of characteristics of activated sludge in UNITANK process in a WWTP in South China［J］. China Water & Wastewater,2016,32(1):31-34(in Chinese).［2］廖振良,朱柏荣,叶建锋. UNITANK工艺机理和其研究进展［J］. 水处置手艺,2009,35(1):20-23. Liao Zhenliang,Zhu Bairong,Ye Jianfeng. Progress of UNITANK process and mechanism［J］. Technology of Water Treatment,2009,35(1):20-23(in Chinese).［3］雷明,张勇,徐廷国,等. UNITANK工艺强化生物除磷运转矩阵简直定［J］. 工业水处置,2011,31(9):41-43.  Lei Ming,Zhang Yong,Xu Tingguo,et al. Study on the running matrix of enhanced biological dephosphorization by UNITANK process［J］. Industrial Water Treatment,2011,31(9):41-43(in Chinese).［4］陈婉如,张勇,崔松阳. 提高UNITANK工艺去除氨氮效能的研究［J］. 中国给水排水,2011,27(11):84-87. Chen Wanru,Zhang Yong,Cui Songyang. Measures for improving ammonia nitrogen removal efficiency by UNITANK process［J］. China Water & Wastewater,2011,27(11):84-87(in Chinese).［5］罗隽,周秀秀,刘畅,等. 南边某UNITANK工艺污水处置厂活性污泥性状改良［J］. 中国给水排水,2016,32(16):119-122. Luo Jun,Zhou Xiuxiu,Liu Chang,et al. Improvement of activated sludge performance in a wastewater treatment plant with UNITANK process in South China［J］. China Water & Wastewater,2016,32(16):119-122(in Chinese).［6］陶芳,黄燕,高贵,等. PCRDGGE法阐发温度对A2/O系统硝化菌群布局的影响［J］. 华东师范年夜学学报:天然科学版,2009,(5):53-62. Tao Fang,Huang Yan,Gao Shang,et al. Application of PCRDGGE to analyze the effect of temperature on structure of nitrifying bacteria in A2/O system［J］. Journal of East China Normal University:Natural Science,2009,(5):53-62(in Chinese).［7］赵梦月,王博,郭媛媛,等. 部门短程硝化SBR实现低C/N比糊口污水碳源的充实操纵［J］. 化工学报,2016,67(11):4825-4836. Zhao Mengyue,Wang Bo,Guo Yuanyuan,et al. Efficient organics utilization of low C/N ratio domestic sewage through partial nitritation SBR［J］. CIESC Journal,2016,67(11):4825-4836(in Chinese).［8］王社平,邵军峰,万琼,等. A2/O工艺中二沉池污泥上浮的缘由与对策［J］. 中国给水排水,2010,26(13):43-45. Wang Sheping,Shao Junfeng,Wan Qiong,et al. Causes and countermeasures on sludge floating in secondary sedimentation tank in A2/O process［J］. China Water & Wastewater,2010,26(13):43-45(in Chinese).［9］葛勇涛,焦阳,李军,等. 乙酸钠碳源强化生物滤池对二沉池出水的脱氮结果［J］. 中国给水排水,2011,27(7):98-100. Ge Yongtao,Jiao Yang,Li Jun,et al. Sodium acetate as carbon source for enhancing nitrogen removal from secondary effluent with biological filter［J］. China Water & Wastewater,2011,27(7):98-100(in Chinese).［10］徐建宇,陈腾殊,罗阳,等. 回流污泥比对厌氧释磷结果的影响［J］. 云南化工,2001,38(1):20-23. Xu Jianyu,Chen Tengshu,Luo Yang,et al. Effect of recycle ratio on phosphorus removal of anaerobic process［J］. Yunnan Chemical Technology,2001,38(1):20-23(in Chinese).

  备注/Memo

  基金项目：国度天然科学基金帮助项目(51464014)；江西省教育厅科学手艺研究项目(GJJ150662)；江西理工年夜学博士启动基金帮助项目(3401223198)作者简介： 董姗燕（1977- ），女，安徽明光人，博士，讲师，首要处置污水处置工艺仿真和优化研究。E-mail:wydeccr@163.com收稿日期：2018-04-23

  更新日期/Last Update:2018-11-01

  
  

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