煤矿低浓度瓦斯氧化利用系统研究
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摘要
介绍一种煤矿低浓度瓦斯氧化利用系统。该系统包括浓度调节装置与氧化反应装置2部分,先对瓦斯浓度进行调节使瓦斯浓度控制在合理的浓度区内,然后通入瑞士卷结构燃烧器中氧化利用,通过调节电加热器的供热量与换热器取热量使整个氧化装置处于动态平衡。整个系统处在PLC与组态王联合开发的监控系统下运行,对煤矿低浓度瓦斯的利用具有积极作用。
The oxidation using system of coal mine low concentration methane of coal mine has been introduced. Concentration regulation device and oxidation reaction device are been include in this system. Coal mine of low concentration methane has concentration regulation before oxidation in the combustor of swiss-roll. The whole oxidation device was in dynamic equilibrium by adjusting the electric heater for the heat and the heat exchanger to take the heat. The total system is in the operation of monitoring system which combined development by PLC and Configuration King.
The oxidation using system of coal mine low concentration methane of coal mine has been introduced. Concentration regulation device and oxidation reaction device are been include in this system. Coal mine of low concentration methane has concentration regulation before oxidation in the combustor of swiss-roll. The whole oxidation device was in dynamic equilibrium by adjusting the electric heater for the heat and the heat exchanger to take the heat. The total system is in the operation of monitoring system which combined development by PLC and Configuration King.
引文
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[2]何贤钊,林其钊,马培勇,等.矿井通风瓦斯燃烧器自动控制系统:ZL200820181787[P]. 2010-1-6.
[3]高增丽,高振强,刘永启,等.矿井乏风瓦斯治理利用现状与发展[J].冶金能源,2010,29(5):43-46.
[4]冯兵. 60,000Nm3/h煤矿瓦斯蓄热氧化装置设计开发[D].济南:山东大学,2017.
[5]刘迎春,李雅庄煤矿瓦斯抽采系统运行规律测试及抽采效果评价[D].徐州:中国矿业大学,2016.
[6]吕元,姜凡,肖云汉.煤矿通风瓦斯氧化处理实验装置设计[J].环境工程,2011,29(4):90-93,108.
[7]张志诚,刘瑞祥,刘永启,等.煤矿乏风瓦斯氧化装置浓度调节系统开发[J].农业装备与车辆工程,2011(3):12-14.
[8]阎欣.组态王和PLC实现远程监控系统[J].东北电力技术,2007(3):19-22.
[9]汪芬,陈永生,张寿明.基于PLC和组态王的煤矿压风机监控系统[J].煤矿机械,2008,29(11):176-177.