基于组态王的燃煤电厂超低排放颗粒物浓度监测系统
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摘要
为解决燃煤电厂超低排放颗粒物浓度监测中存在的集成度低、标定繁琐、不便远程管理等问题,提出了一种基于组态王的颗粒物浓度监测系统。系统融合激光散射法及β射线法,通过PLC实现数据采集与运动控制,采用组态王软件作为上位机开发颗粒物浓度远程监控及Web发布功能。研究结果表明,该监控系统可以远程实时监测和记录颗粒物浓度变化,并适时对监测数据进行校准,提高了监测效率及系统适应性,可以更好地满足燃煤电厂超低排放监管要求。
A monitoring system of ultra-low emission particle concentration based on KingView was introduced to improve the system integration,fussy calibration and inconvenience remote control in coal-fired power plant. The system integrates laser scattering and the method of β ray,and realizes the data acquisition and motion control through PLC,and uses the KingView of the upper computer as the remote monitoring and Web publishing of the particle concentration. The results show that the monitoring system can remote real-time monitoring and record the change of the concentration of particulate,and timely monitoring data for calibration,which can improve the efficiency of monitoring and system adaptability,better satisfy the requirement of the coal-fired power plant ultra-low emission regulation.
A monitoring system of ultra-low emission particle concentration based on KingView was introduced to improve the system integration,fussy calibration and inconvenience remote control in coal-fired power plant. The system integrates laser scattering and the method of β ray,and realizes the data acquisition and motion control through PLC,and uses the KingView of the upper computer as the remote monitoring and Web publishing of the particle concentration. The results show that the monitoring system can remote real-time monitoring and record the change of the concentration of particulate,and timely monitoring data for calibration,which can improve the efficiency of monitoring and system adaptability,better satisfy the requirement of the coal-fired power plant ultra-low emission regulation.
引文
[1] HJ 76—2017固定污染源烟气(SO2/NOx、颗粒物)排放连续监测系统技术要求及检测方法[S].
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[3] Eric Lipsky,Allen Robinson. Design and evaluation of a portable dilution sampling system for measuring fine particle emissions from combustion systems[J]. Aerosol Science and Technology,2005,39:542-553.
[4]李兴华,段雷,郝吉明,等.固定燃烧源颗粒物稀释采样系统的研制与应用[J].环境科学学报,2008,28(3):458-463.
[5]孔少飞,白志鹏,陆炳,等.固定源排放颗粒物采样方法的研究进展[J].环境科学与技术,2011,34(12):88-94.
[6]徐春雨,王秦,李娜,等.大气PM2. 5浓度的光散射测定法及湿度校正[J].环境与健康杂志,2015,32(2):151-154.
[7]胡子豪.高湿度低浓度环境下烟气烟尘含量的测量[J].有色冶金设计与研究,2017,38(3):24-26.
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[9]李根,申俊杰,刘海庆,等.基于PLC和组态王的激光器功率监控系统[J].光电子激光2016,27(8):792-797.
[10]由琇.基于手机和组态王的温室远程监控系统设计[D].昆明:昆明理工大学,2013.
[11]刘恩博,田敏.组态软件数据采集与串口通信测控应用实战[M].北京:人民邮电出版社,2010.
[12]苏静明,洪炎.基于PLC和组态王的节能控制站远程监控系统研究[J].工矿自动化,2011,37(2):20-23.
[13]季厌浮,胥良,王宇.基于PLC的矿井交流提升机调速控制系统的研究[J].金属矿山,2010,16(4):123-125.
[14] Zhang Peng,Zhang Ke. Design of automatic batching and delivery system based on PLC and KINGVIEW[J]. Journal of Nanyang Institute of Technology,2014,6(6):17-20.
[15] Li Shiguang,Mei Shounbin,Gao Zhengzhong. Design of mining automatic drainage monitoring and control system based on PLC and Kingview[A]. 2013 Seventh International Conference on Image and Graphics(ICIG),Qingdao,China,2013:779-783.
[2] Glenn C England,John G Waston,Judith C Chow,et al.Dilution-based emissions sampling from stationary sources:part 1-compact sampler methodology and performance[J]. Journal of Air and Waste Management Association,2007,57:65-78.
[3] Eric Lipsky,Allen Robinson. Design and evaluation of a portable dilution sampling system for measuring fine particle emissions from combustion systems[J]. Aerosol Science and Technology,2005,39:542-553.
[4]李兴华,段雷,郝吉明,等.固定燃烧源颗粒物稀释采样系统的研制与应用[J].环境科学学报,2008,28(3):458-463.
[5]孔少飞,白志鹏,陆炳,等.固定源排放颗粒物采样方法的研究进展[J].环境科学与技术,2011,34(12):88-94.
[6]徐春雨,王秦,李娜,等.大气PM2. 5浓度的光散射测定法及湿度校正[J].环境与健康杂志,2015,32(2):151-154.
[7]胡子豪.高湿度低浓度环境下烟气烟尘含量的测量[J].有色冶金设计与研究,2017,38(3):24-26.
[8]罗四国,刘真贞,王国贵.固定污染源排放低浓度颗粒物监测方法研究[J].资源节约与环保,2014(10):118-119.
[9]李根,申俊杰,刘海庆,等.基于PLC和组态王的激光器功率监控系统[J].光电子激光2016,27(8):792-797.
[10]由琇.基于手机和组态王的温室远程监控系统设计[D].昆明:昆明理工大学,2013.
[11]刘恩博,田敏.组态软件数据采集与串口通信测控应用实战[M].北京:人民邮电出版社,2010.
[12]苏静明,洪炎.基于PLC和组态王的节能控制站远程监控系统研究[J].工矿自动化,2011,37(2):20-23.
[13]季厌浮,胥良,王宇.基于PLC的矿井交流提升机调速控制系统的研究[J].金属矿山,2010,16(4):123-125.
[14] Zhang Peng,Zhang Ke. Design of automatic batching and delivery system based on PLC and KINGVIEW[J]. Journal of Nanyang Institute of Technology,2014,6(6):17-20.
[15] Li Shiguang,Mei Shounbin,Gao Zhengzhong. Design of mining automatic drainage monitoring and control system based on PLC and Kingview[A]. 2013 Seventh International Conference on Image and Graphics(ICIG),Qingdao,China,2013:779-783.