锅炉安全与节能物联网监测技术应用
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摘要
为有效提升锅炉安全与节能管理水平,利用信息传感和互联网技术,开发了锅炉安全与节能物联网监测系统,不仅能够有效降低锅炉安全隐患,而且能帮助企业节能,并能实现锅炉运行数据云共享。该系统已在第一批53台在用锅炉上试点运行。试运行期间,运用该系统,结合优化运行和节能技改等综合手段,17台燃油/气锅炉和32台燃煤/生物质锅炉整体热效率平均分别提高2.97%和5.08%。另外,该系统已成功消除20余次安全隐患,监测到上千次能效超标报警,成功帮助20余家企业节能,取得良好的社会效益和节能效果。
In order to effectively improve the management level of boiler safety and energy saving, the boiler safety and energy saving IOT monitoring system is developed by using information sensing and Internet technology. The system can not only effectively reduce the hidden danger of boiler safety, but also help enterprises save energy and realize the cloud sharing of boiler operation data. The system is piloted on the first batch of 53 operation boilers. During the trial operation,using this system combined with the means of optimizing operation and technological transformation, the average thermal efficiency of 17 sets of fuel oil/gas boiler and 32 sets of coal/biomass boiler increased by 2.97% and 5.08% respectively.In addition, the system has successfully eliminated more than 20 security risks, monitored over 1000 Energy Efficiency warning, and successfully helped more than 20 enterprises to save energy. The system achieves good social and energysaving results.
In order to effectively improve the management level of boiler safety and energy saving, the boiler safety and energy saving IOT monitoring system is developed by using information sensing and Internet technology. The system can not only effectively reduce the hidden danger of boiler safety, but also help enterprises save energy and realize the cloud sharing of boiler operation data. The system is piloted on the first batch of 53 operation boilers. During the trial operation,using this system combined with the means of optimizing operation and technological transformation, the average thermal efficiency of 17 sets of fuel oil/gas boiler and 32 sets of coal/biomass boiler increased by 2.97% and 5.08% respectively.In addition, the system has successfully eliminated more than 20 security risks, monitored over 1000 Energy Efficiency warning, and successfully helped more than 20 enterprises to save energy. The system achieves good social and energysaving results.
引文
[1]国家质检总局.全国特种设备安全状况通报[R].北京,2011-2016.
[2]杨茹,何军飞,胡志锋等.链条燃煤工业锅炉燃烧优化的数值模拟研究[J].工业安全与环保,2014,40(4):90-94.
[3]厉恩启.电站锅炉在线监测系统的节能技术探讨[J].科技视界,2014,(23):285.
[4]马益新,梁希,马会钧.电站锅炉远程在线服务系统研究[J].顺德职业技术学院学报,2015,(1):11-17.
[5]姜瑜,赵娟,江铁颐等.注汽锅炉在线效率分析及运行工况调整[J].石油天然气学报,2013,35(3):352-353.
[6]叶亚兰,司风琪,徐治皋.基于燃料特性实时修正的煤气锅炉热效率在线监测方法[J].热能动力工程,2014,29(2):175-180.
[7]王玉石,唐满红,李鹏.烟气冷凝锅炉热效率计算方法研究[J].油气田地面工程,2017,36(3):18-20.
[8]卢伟业,李越胜,冯国行等.一种用于燃天然气蒸汽锅炉热效率的快速预测方法[J].节能技术,2017,35(1):21-25.
[9]汪建宇,郭洪涛.基于互联网的锅炉远程监控系统[J].工业仪表与自动化装置,2013,(3):82-83.
[10]仝营,顾新建,纪杨建.基于物联网和云计算的工业锅炉在线监测[J].计算机集成制造系统,2016,22(1):213-219.
[2]杨茹,何军飞,胡志锋等.链条燃煤工业锅炉燃烧优化的数值模拟研究[J].工业安全与环保,2014,40(4):90-94.
[3]厉恩启.电站锅炉在线监测系统的节能技术探讨[J].科技视界,2014,(23):285.
[4]马益新,梁希,马会钧.电站锅炉远程在线服务系统研究[J].顺德职业技术学院学报,2015,(1):11-17.
[5]姜瑜,赵娟,江铁颐等.注汽锅炉在线效率分析及运行工况调整[J].石油天然气学报,2013,35(3):352-353.
[6]叶亚兰,司风琪,徐治皋.基于燃料特性实时修正的煤气锅炉热效率在线监测方法[J].热能动力工程,2014,29(2):175-180.
[7]王玉石,唐满红,李鹏.烟气冷凝锅炉热效率计算方法研究[J].油气田地面工程,2017,36(3):18-20.
[8]卢伟业,李越胜,冯国行等.一种用于燃天然气蒸汽锅炉热效率的快速预测方法[J].节能技术,2017,35(1):21-25.
[9]汪建宇,郭洪涛.基于互联网的锅炉远程监控系统[J].工业仪表与自动化装置,2013,(3):82-83.
[10]仝营,顾新建,纪杨建.基于物联网和云计算的工业锅炉在线监测[J].计算机集成制造系统,2016,22(1):213-219.