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加药量和水力搅拌速度对雨水混凝效果的影响

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程方, 秦涛, 赵现勇, 孙力平, 王秀朵. 加药量和水力搅拌速度对雨水混凝效果的影响[J]. 环境工程学报, 2012, 6(11): 3905-3909.
引用本文: 程方, 秦涛, 赵现勇, 孙力平, 王秀朵. 加药量和水力搅拌速度对雨水混凝效果的影响[J]. 环境工程学报, 2012, 6(11): 3905-3909.
shu
Cheng Fang, Qin Tao, Zhao Xianyong, Sun Liping, Wang Xiuduo. Effect of coagulant dosage and hydraulic strirring speed on rainwater coagulation[J]. Chinese Journal of Environmental Engineering, 2012, 6(11): 3905-3909.
Citation: Cheng Fang, Qin Tao, Zhao Xianyong, Sun Liping, Wang Xiuduo. Effect of coagulant dosage and hydraulic strirring speed on rainwater coagulation[J]. Chinese Journal of Environmental Engineering, 2012, 6(11): 3905-3909.
shu

加药量和水力搅拌速度对雨水混凝效果的影响

  • 1.

    天津城市建设学院水质科学与技术天津市重点实验室,天津 300384

  • 2.

    天津城市建设学院环境与市政工程系,天津 300384

  • 3.

    天津市市政工程设计研究院,天津 300051

  • 基金项目:

    国家"水体污染控制与治理"科技重大专项(2008ZX07314-004-003)

  • 中图分类号: X703.1

Effect of coagulant dosage and hydraulic strirring speed on rainwater coagulation

  • 1.

    Tianjin Key Laboratory of Water Quality Science and Technology, Tianjin Institute of Urban Construction, Tianjin 300384,China

  • 2.

    Department of Environmental & Municipal Engineering, Tianjin Institute of Urban Construction, Tianjin 300384, China

  • 3.

    Tianjin Municipal Engineering Design & Research Institute,Tianjin 300051,China

  • Fund Project:

  • 摘要: 为降低分流制雨水中悬浮颗粒物及其他污染物浓度,减轻城市景观河道的水体富营养化程度,对取自泵站的雨水进行混凝沉淀工艺优化实验。以PAC为混凝剂,采用Zeta电位仪、激光粒度仪和iPDA在线监测技术对混凝过程进行监测,考察了混凝剂投加量和水力搅拌速度对絮体形成和分流制雨水处理效果的影响,结果表明,混凝剂投加量和混合水力搅拌速度直接影响絮体Zeta电位和聚沉特性;混合搅拌速度控制混凝反应速率,絮凝速度梯度影响絮体形成粒径。FI曲线特征参数对控制混凝工艺具有指导意义。PAC投加量为35 mg/L,混合阶段搅拌速度800 r/min,搅拌30 s,絮凝阶段采用150、108和60 r/min的转速各自搅拌5 min,沉后水中剩余颗粒总数最少,浊度、COD和总磷去除效果最佳。
    Abstract: Coagulation-sedimentation optimization tests of rainwater from pumping station were carried out in order to decrease the concentrations of suspended particles and other pollutants in rainwater of separated drainage system and alleviate the eutrophication of scenic river. Using PAC as coagulant, the effect of coagulant dosage and hydraulic sirring speed on formation of flocs and treatment effect of rainwater in separated drainage system were investigated by monitoring the coagulation process using zeta potential analyzer, laser particle analyzer and iPDA on-line monitoring technology. The results showed that the zeta potential of flocs and coagulation characteristics were directly affected by coagulant dosage and hydraulic stirring speed. Coagulation reaction rate was controlled by stirring speed. The diameter of the formed flocs was affected by flocculation velocity gradient. The feature parameter of FI curve was directive and significant for controlling coagulation process. The optimum conditions were obtained: coagulant dose of PAC was 35 mg/L, stirring speed during mixing stage was 800 r/min for 30 s, stirring speeds during flocculating stage were 150,108 and 60 r/min for 5 min respectively in turn. Under the optimum conditions, the total particles after sedimentation were the least, the best removal efficiency of turbidity, COD and total phosphorus were obtained.
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  • [1] 刘翠云,车伍.分流制雨水与合流制溢流水质的比较.给水排水,2007,33(4):51-57 Liu Cuiyun,Che Wu. Sewer water quality comparison of separate discharge and combined overflow. Water & Wastewater Engineering, 2007, 33(4):51-57(in Chinese)
    [2] 张亚东,车伍.北京城区道路雨水径流污染指标相关性分析.城市环境与城市生态,2003,16(6):182-184 Zhang Yadong,Che Wu. Interrelation of pollutants in road runoff of Beijing urban area. Urban Environment & Urban Ecology, 2003,16(6): 182-184(in Chinese)
    [3] 张淑娜,李小娟.天津市区道路地表径流污染特征研究.环境科学与管理,2008,33(2):25-28 Zhang Shuna,Li Xiaojuan. Pollution feature of road surface runoff in urban district of Tianjin. Environmental Science and Management, 2008, 33(2):25-28(in Chinese)
    [4] 夏宏生,向欣.城市道路降雨径流中悬浮颗粒特性及其全过程削减探讨.环境科学与管理, 2009,34(5):34-37 Xia Hongsheng,Xiang Xin. Discussion on SS of road runoff and it whole course minimization. Environmental Science and Management,2009, 34(5):34-37(in Chinese)
    [5] 李俊奇,车伍.城市雨水沉淀特性及其颗粒分布研究.中国给水排水,2004,20(3):43-46 Li Junqi,Che Wu. Research of sedimentation characteristics and particle distribution of urban stormwater.China Water & Wastewater,2004, 20(3): 43-46(in Chinese)
    [6] 陈莹,赵剑强.西安市城市主干道路面径流污染及沉淀特性研究.环境工程学报,2011,5(2):331-336 Chen Ying,Zhao Jianqiang.Study on pollution and sedimentation property of urban trunk road runoff in Xi’an city. Chinese Journal of Environmental Engineering, 2011,5(2):331-336(in Chinese)
    [7] 邓风,陈卫,孙文全.城市雨水的物化处理技术.中国给水排水, 2003,19(10):96-97 Deng Feng,Chen Wei,Sun Wenquan. Physico-chemical treatment technology of urban stormwater. China Water & Wastewater,2003, 19(10): 96-97 (in Chinese)
    [8] 王东升,刘海龙,晏明全,等.强化混凝与优化混凝:必要性、研究进展和发展方向.环境科学学报,2006,26 (4):544-551 Wang Dongsheng,Liu Hailong,Yan Mingquan,et al. Enhanced coagulation vs. optimized coagulation:A critical review. Acta Scientiae Circumstantiae,2006, 26(4):544-551 (in Chinese)
    [9] 周勤,肖锦.搅拌条件对强化混凝去除给水微细颗粒的影响研究.环境科学与技术,2007,27(3):18-19 Zhou Qin,Xiao Jin. An experimental study on influence of mixing pattern on particulates removal by enhanced coagulation.Environmental Science and Technology, 2007,27(3):18-19 (in Chinese)
    [10] 李敏,宗栋良.混凝中Zeta电位的影响因素.环境科技, 2010,23(3):9-11 Li Min,Zong Dongliang. Influence factors on Zeta potential in coagulation. Environmental Science and Technology,2010,23(3):9-11 (in Chinese)
    [11] 刘百仓,黄尔,鲁金凤等.混凝工艺水力条件的优化与絮体尺寸特性的研究.环境工程学报, 2010,4(9):1968-1972 Liu Baicang,Huang Er,Lu Jinfeng,et al.Optimization of hydrodynamic conditions in coagulation process and study of floc size characteristics. Chinese Journal of Environmental Engineering,2010,4(9): 1968-1972 (in Chinese)
    [12] 金鹏康,王晓昌.腐植酸混凝过程FI曲线的特征参数分析.环境科学学报,2002,22(4):423-427 Jin Pengkang,Wang Xiaochang. An analysis of characteristic parameters of FI curve for coagulation of humic acid. Acta Scientiae Circumstantiae, 2002, 22(4): 423-427 (in Chinese)
    [13] 崔福义,李圭白.流动电流及其在混凝控制中的应用.黑龙江:黑龙江科学技术出版社, 1995
    [14] 王东升.微污染原水强化混凝技术.北京:科学出版社,2009
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出版历程
  • 收稿日期:  2011-08-31
  • 刊出日期:  2012-11-09
程方, 秦涛, 赵现勇, 孙力平, 王秀朵. 加药量和水力搅拌速度对雨水混凝效果的影响[J]. 环境工程学报, 2012, 6(11): 3905-3909.
引用本文: 程方, 秦涛, 赵现勇, 孙力平, 王秀朵. 加药量和水力搅拌速度对雨水混凝效果的影响[J]. 环境工程学报, 2012, 6(11): 3905-3909.
shu
Cheng Fang, Qin Tao, Zhao Xianyong, Sun Liping, Wang Xiuduo. Effect of coagulant dosage and hydraulic strirring speed on rainwater coagulation[J]. Chinese Journal of Environmental Engineering, 2012, 6(11): 3905-3909.
Citation: Cheng Fang, Qin Tao, Zhao Xianyong, Sun Liping, Wang Xiuduo. Effect of coagulant dosage and hydraulic strirring speed on rainwater coagulation[J]. Chinese Journal of Environmental Engineering, 2012, 6(11): 3905-3909.
shu

加药量和水力搅拌速度对雨水混凝效果的影响

  • 1.  天津城市建设学院水质科学与技术天津市重点实验室,天津 300384
  • 2.  天津城市建设学院环境与市政工程系,天津 300384
  • 3.  天津市市政工程设计研究院,天津 300051
  • 收稿日期:  2011-08-31
基金项目:

国家"水体污染控制与治理"科技重大专项(2008ZX07314-004-003)

摘要: 为降低分流制雨水中悬浮颗粒物及其他污染物浓度,减轻城市景观河道的水体富营养化程度,对取自泵站的雨水进行混凝沉淀工艺优化实验。以PAC为混凝剂,采用Zeta电位仪、激光粒度仪和iPDA在线监测技术对混凝过程进行监测,考察了混凝剂投加量和水力搅拌速度对絮体形成和分流制雨水处理效果的影响,结果表明,混凝剂投加量和混合水力搅拌速度直接影响絮体Zeta电位和聚沉特性;混合搅拌速度控制混凝反应速率,絮凝速度梯度影响絮体形成粒径。FI曲线特征参数对控制混凝工艺具有指导意义。PAC投加量为35 mg/L,混合阶段搅拌速度800 r/min,搅拌30 s,絮凝阶段采用150、108和60 r/min的转速各自搅拌5 min,沉后水中剩余颗粒总数最少,浊度、COD和总磷去除效果最佳。

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