Research of Rebuilt and Application of Dust Collector in Coal-Fired Power Plants
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- 英文论文题名:Research of Rebuilt and Application of Dust Collector in Coal-Fired Power Plants
- 论文作者:Qizhen Liu ; Yanjing Sun ; Lei Jia ; Yihua Zhang ; Zhigang Shen
- 英文论文作者:Qizhen Liu ; Yanjing Sun ; Lei Jia ; Yihua Zhang ; Zhigang Shen ; Shanghai Environmental Monitoring Center ; Shanghai Academy of Environmental Sciences ; Shanghai Oriental Enviro-Industry Co. ; LTD.
- 年:2015
- 作者机构:Shanghai Environmental Monitoring Center;Shanghai Academy of Environmental Sciences;Shanghai Oriental Enviro-Industry Co.,LTD.;
- 英文论文关键词:Coal-fired power plants ; dust collector ; dust removal efficiency ; particulate matter
- 会议召开时间:2015-03-01
- 会议录名称:Journal of Clean Energy Technologies Vol.3 No.2
- 语种:英文
- 分类号:TM621.73
- 学会代码:CDYA
- 学会名称:成都亚昂教育咨询有限公司
- 页数:4
- 文件大小:1831k
- 原文格式:D
摘要
Power plant A and Power plant B launched the rebuilt pilot project of bag house and power source of electrostatic precipitator in order to further increase the dust removal efficiency in coal-fired power plants and then improve air quality in Shanghai. Results showed that dust reduction rate rose to 69.5% and the concentration of particulate matter dropped to 9.2 mg/m~3 after the rebuilt of bag house. On the other hand, dust reduction rate was 48.8% and the concentration of particulate matter was 17.9 mg/m~3 after the rebuilt of electrostatic precipitator.
Power plant A and Power plant B launched the rebuilt pilot project of bag house and power source of electrostatic precipitator in order to further increase the dust removal efficiency in coal-fired power plants and then improve air quality in Shanghai. Results showed that dust reduction rate rose to 69.5% and the concentration of particulate matter dropped to 9.2 mg/m~3 after the rebuilt of bag house. On the other hand, dust reduction rate was 48.8% and the concentration of particulate matter was 17.9 mg/m~3 after the rebuilt of electrostatic precipitator.
Power plant A and Power plant B launched the rebuilt pilot project of bag house and power source of electrostatic precipitator in order to further increase the dust removal efficiency in coal-fired power plants and then improve air quality in Shanghai. Results showed that dust reduction rate rose to 69.5% and the concentration of particulate matter dropped to 9.2 mg/m~3 after the rebuilt of bag house. On the other hand, dust reduction rate was 48.8% and the concentration of particulate matter was 17.9 mg/m~3 after the rebuilt of electrostatic precipitator.
引文
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[2]R.Meij and B.T.Winkel,“The emissions and environmental impact of PM10 and trace elements from a modern coal-fired power plant equipped with ESP and wet FGD,”Fuel Process.Technol.,vol.85,no.6-7,pp.641-656,June 2004.
[3]Y.Yue,L.Chen,and Q.Yao,“Experimental research on characteristics of enrichment of coal-fired boiler size distributions of particles and trace elements,”in Proc.the CESS,2005,pp.25.18-74-25.18-79.
[4]Y.Yao,B.Jin,and Z.Zhong,“Research on the discharging features of trace elements in a pulverized coal furnace,”in Proc.the CESS,2003,pp.23.11-205-23.11-210.
[5]X.Sun,Technology and Its Application of Bag Filtering;Beijing:Machinery Industry Press,2003.
[6]A.Fang,“Breif analysis on the technical characteristics of the bag house of coal-fired power plants,”in Proc.the Conf.About the National Thermal Power Plant Flue Gas,Dust Comprehensive Treatment and Utilization Technology.
[7]L.Wang,Q.Fu,and Z.Lu,“Reliability analysis of bag house in thermal power plant,”Water Conservancy&Electr.Power Mach.(China),vol.32,no.5,pp.1-3,May 2010.
[8]Q.Yao,R.Chen,M.Wei,Z.Chen,and C.Liu,“Large thermal power plant boiler flue dust bag technology and application,”J.Safe.Environ.(China),vol.5,no.4,pp.1-4,August 2005.
[9]Y.Jiang and R.Song,“Research on the development of thermal power plant dust removal technology,”Environ.Sci.Technol.(China),vol.31,no.8,pp.59-64,August 2008.
[10]S.Huang,“Development and prospect of electrostatic precipitation technology,”in Proc.the 11th National Conf.on Electrical Dust,Zhengzhou,2005,pp.13-18.
[2]R.Meij and B.T.Winkel,“The emissions and environmental impact of PM10 and trace elements from a modern coal-fired power plant equipped with ESP and wet FGD,”Fuel Process.Technol.,vol.85,no.6-7,pp.641-656,June 2004.
[3]Y.Yue,L.Chen,and Q.Yao,“Experimental research on characteristics of enrichment of coal-fired boiler size distributions of particles and trace elements,”in Proc.the CESS,2005,pp.25.18-74-25.18-79.
[4]Y.Yao,B.Jin,and Z.Zhong,“Research on the discharging features of trace elements in a pulverized coal furnace,”in Proc.the CESS,2003,pp.23.11-205-23.11-210.
[5]X.Sun,Technology and Its Application of Bag Filtering;Beijing:Machinery Industry Press,2003.
[6]A.Fang,“Breif analysis on the technical characteristics of the bag house of coal-fired power plants,”in Proc.the Conf.About the National Thermal Power Plant Flue Gas,Dust Comprehensive Treatment and Utilization Technology.
[7]L.Wang,Q.Fu,and Z.Lu,“Reliability analysis of bag house in thermal power plant,”Water Conservancy&Electr.Power Mach.(China),vol.32,no.5,pp.1-3,May 2010.
[8]Q.Yao,R.Chen,M.Wei,Z.Chen,and C.Liu,“Large thermal power plant boiler flue dust bag technology and application,”J.Safe.Environ.(China),vol.5,no.4,pp.1-4,August 2005.
[9]Y.Jiang and R.Song,“Research on the development of thermal power plant dust removal technology,”Environ.Sci.Technol.(China),vol.31,no.8,pp.59-64,August 2008.
[10]S.Huang,“Development and prospect of electrostatic precipitation technology,”in Proc.the 11th National Conf.on Electrical Dust,Zhengzhou,2005,pp.13-18.