Improving removal of PM2.5 by electrostatic precipitator with chemical agglomeration

doi:10.3969/j.issn.0438-1157.2014.09.041

Abstract

Abstract: Emission of fine particles from coal combustion is an important source of atmospheric PM_2.5. The removal of PM_2.5 from coal combustion by electrostatic precipitator (ESP) with adding agglomerant solution and evaporating treatment of desulfurized wastewater was investigated experimentally based on the coal-fired thermal system. Change of concentration and diameter distribution of particles were tested before and after agglomeration, and the influence factors, including concentration of agglomerant solutions, temperature of flue gas at the point of addition，agglomeration solution pH，flue gas flow, and diameter of spray droplets were analyzed. The average diameter of particles could grow more than four times with the effect of wetting, liquid bridge force and adsorption bridging, and the PM_2.5 concentration at ESP outlet could decrease by more than 40% under typical flue gas conditions. Increasing concentration of agglomeration solution could promote PM_2.5 removal. Reducing agglomeration solution pH was better for agglomeration by making the polymer chain more soft stretch. The PM_2.5 concentration at ESP outlet had no change after spraying desulfurized wastewater, and the PM_2.5 concentration decreased when adding agglomeration solution.

Key words: PM_2.5, agglomeration, removal, ESP, desulfurized wastewater, evaporation

摘要： 燃煤排放细颗粒物是大气环境PM_2.5增加的重要来源。采用燃煤热态实验系统，进行了在电除尘器入口烟气添加化学团聚剂以及协同脱硫废水蒸发处理促进电除尘脱除PM_2.5的实验研究。实验考察了团聚剂添加前后PM_2.5浓度及其粒度分布的变化，以及团聚剂浓度、添加点烟温、团聚剂溶液pH、烟气量、雾滴粒径等对PM_2.5脱除效果的影响。结果表明，添加化学团聚液后，通过润湿作用、液桥力和吸附架桥作用可增强PM_2.5之间的接触并促进团聚长大，PM_2.5增大到原先的4倍左右，典型工况下电除尘器出口PM_2.5浓度降低40%以上。增加团聚液浓度可促进PM_2.5的脱除；适当降低团聚液pH有利于PM_2.5的团聚。喷脱硫废水，电除尘器出口PM_2.5浓度变化不大，加团聚剂后出口细颗粒物浓度降低。

关键词: PM_2.5, 团聚, 脱除, 电除尘, 脱硫废水, 蒸发

CLC Number:

LIU Yong, ZHAO Wen, LIU Rui, YANG Linjun. Improving removal of PM_2.5 by electrostatic precipitator with chemical agglomeration[J]. CIESC Journal, 2014, 65(9): 3609-3616.

刘勇, 赵汶, 刘瑞, 杨林军. 化学团聚促进电除尘脱除PM_2.5的实验研究[J]. 化工学报, 2014, 65(9): 3609-3616.

References 19

[1]	Yue Yong (岳勇), Chen Lei (陈雷), Yao Qiang (姚强). Study on characteristics of particulate matter size distribution and trace elements enrichment in emission from a pulverized coal-fired boiler [J]. Proceedings of the CSEE (中国电机工程学报), 2005, 25 (18): 74-79
[2]	Liu Zhong (刘忠), Liu Hanxiao (刘含笑), Feng Xinxin (冯新新), et al. Simulation for the flow field of the turbulence coalescence device and the trajectory of particles [J]. Proceedings of the CSEE (中国电机工程学报), 2012, 32 (14): 71-75
[3]	Zhu Jibao (朱继保). Fine particle collection with electrostatic precipitation [D]. Hangzhou: Zhejiang University, 2010: 7-19
[4]	Yang Linjun (杨林军). Pollution Control Technology of Fine Particles from the Combustion Sources (燃烧源细颗粒物污染控制技术) [M]. Beijing: Chemical Industry Press, 2011: 7-10
[5]	Zhang Guangxue (张光学), Liu Jianzhong (刘建忠), Zhou Junhu (周俊虎), Cen Kefa (岑可法) . Acoustic agglomeration of coal-fired fly ash particles in low frequency sound fields [J]. CIESC Journal (化工学报), 2009, 60 (4): 1001-1006
[6]	Xu Jieying (徐杰英), Liu Jing (刘晶), Zheng Chuguang (郑楚光). Advance in the research of ultrafine particulate matter from combustion [J]. Coal Conversion (煤炭转化), 2003, 26 (4): 16-20
[7]	Wei Feng (魏凤), Zhang Junying (张军营), Wang Chunmei (王春梅), Zheng Chuguang (郑楚光). Review of submicron particles agglomeration in coal combustion process [J]. Coal Conversion (煤炭转化), 2003, 26 (3): 27-31
[8]	Rajniak P. Experiment study of wet granulation in fluidized bed: impact of the binder properties on the granule morphology [J]. International Journal of Pharmaceutics, 2007, 334 (1/2): 92-102
[9]	Durham M D, Schlager R D, Ebner T G, et al. Method and apparatus for decreased undesired particle emissions in gas streams [P]: US, 5893943. 1999-4-13
[10]	Kenneth E B. Advanced flue gas conditioning as a retrofit upgrade to enhance PM collection from coal-fired electric utility boilers [R]. Colorado: Quarterly Technical Report, 2002
[11]	Chen Jun (陈俊), Zhang Junying (张军营), Wei Feng (魏凤), et al. Modelling of submicron particle agglomeration in spray process from coal combustion [J]. Journal of China Coal Society (煤炭学报), 2005, 30 (5): 632-636
[12]	Gao Jihui, Liu Jiaxun, Gao Jianmin, Du Qian, Wang Xiaofeng, Wu Shaohua. Modelling and experimental study on agglomeration of particles from coal combustion in multistage spouted fluidized tower [J]. Advanced Powder Technology, 2009, 20: 375-382
[13]	Yan Jinpei (颜金培), Yang Linjun (杨林军), Zhang Xia (张霞), Sun Lujuan (孙露娟), Zhang Yu (张宇), Shen Xianglin (沈湘林). Experimental study on promotion of fine particles capture with wetting agents [J]. Journal of Chemical Industry and Engineering (China) (化工学报), 2008, 59 (10): 2616-2621
[14]	Li Hailong (李海龙), Zhang Junying (张军营), Zhao Yongchun (赵永椿), Ding Feng (丁峰), Zheng Chuguang (郑楚光). Wettability of fly ash from coal fired power plant [J]. CIESC Journal (化工学报), 2009, 60 (3): 744-749
[15]	Li Hailong (李海龙), Zhang Junying (张军营), Zhao Yongchun (赵永椿), Yang Yan (杨艳), Zheng Chuguang (郑楚光). Experimental study on solid-liquid two-phase agglomeration of fine particles from coal combustion [J]. Proceedings of the CSEE (中国电机工程学报), 2009, 29 (29): 63-66
[16]	Wei Feng (魏凤), Zhang Junying (张军营), Zheng Chuguang (郑楚光), Chen Jun (陈俊). Agglomeration simulation of sub-micron particles during coal combustion [J]. Journal of Engineering Thermophysics (工程热物理学报), 2005, 26 (3): 515-518
[17]	Zhao Yongchun (赵永椿), Zhang Junying (张军营), Wei Feng (魏凤), Chen Jun (陈俊), Zheng Chuguang (郑楚光). Experimental study on agglomeration of submicron particles from coal combustion [J]. Journal of Chemical Industry and Engineering (China) (化工学报), 2007, 58 (11): 2876-2881
[18]	Zhang Zhirong (张志荣). Study on key problems of the thermal power plant FGD waste water with evaporation treatment [D]. Chongqing: Chongqing University, 2011
[19]	Shanthakumar S, Singh D N, Phadke R C. Flue gas conditioning for reducing suspended particulate matter from thermal power stations [J]. Progress in Energy and Combustion Science, 2008, 34: 685-695