摘要
为降低乏风瓦斯排放对温室效应的影响,提高乏风瓦斯的利用率,探究了体积分数为0.75%的乏风瓦斯及其与褐煤、无烟煤混烧方法下的氧化规律。随后进一步探究矿井乏风中裹挟的钙质泥岩粉尘对混烧体系中乏风瓦斯的影响。研究利用管式炉系统,模拟乏风瓦斯与空气预混气体环境,将金属氧化物含量不同的钙质泥岩粉尘与不同煤种混合,置于该气体环境中。结合X射线衍射分析(XRD)测试,分析混烧产物。研究表明:钙质泥岩粉尘可以促进瓦斯的氧化,且随着金属氧化物含量的增多,氧化效率增加。钙质泥岩粉尘可以促进同等温度下两个煤种混烧体系中乏风瓦斯的氧化。钙质泥岩粉尘金属氧化物含量越多,乏风瓦斯转化达到极限的温度越低。根据粉尘对两个煤种混烧体系的瓦斯转化作用效果可知,虽然褐煤体系的瓦斯转化率一直高于无烟煤体系,但粉尘对于褐煤体系中乏风瓦斯的转化呈负面影响,对无烟煤体系呈积极影响,故粉尘对无烟煤混烧体系的影响优于对褐煤体系的影响。钙质泥岩粉尘同时起到固硫作用,故对矿井排出乏风瓦斯过程中含有的钙质泥岩粉尘可不做处理,将其与乏风瓦斯共同通入燃煤锅炉中。
In order to reduce the impact of ventilation air methane(VAM)emission on the greenhouse effect,we investigated the oxidation pattern of VAM with a concentration of 0.75%and its mixing method with lignite and anthracite,and the effect of the calcareous mudstone dust in VAM on the VAM in mixed firing system.Calcareous mudstone dust with different metal oxide content was mixed with different coal species and placed in this gas environment by using a tube furnace system to simulate a premixed gas environment of VAM and air.X-ray diffraction(XRD)analysis was used to analyze,the mixed firing products.The study shows that:calcareous mudstone dust can promote the oxidation of gas,and the oxidation efficiency increases with the increase of metal oxide content.Calcareous mudstone dust can promote the oxidation of VAM in the mixed firing system at the same temperature,and the higher the metal oxide content of calcareous mudstone dust,the lower the temperature at which the conversion of spent air gas reaches its limit.According to the effect of dust on the gas conversion of the two coal blending systems,it can be seen that although the gas conversion rate of the lignite system is always higher than that of the anthracite system,the dust has a negative effect on the conversion of the VAM in the lignite system and a positive effect on the anthracite system,so the effect of dust on the anthracite blending system is better than that on the lignite system.Calcareous mudstone dust also plays the role of sulfur fixation,so the calcareous mudstone dust involved in the process of discharging VAM from the mine can be left untreated and passed into the coal-fired boiler together with VAM.
作者
马艺桐
郝朝瑜
何文浩
邓存宝
MA Yitong;HAO Chaoyu;HE Wenhao;DENG Cunbao(College of Safety and Emergency Management Engineering,Taiyuan University of Technology,Taiyuan 030024,China)
出处
《太原理工大学学报》
CAS
北大核心
2023年第3期458-465,共8页
Journal of Taiyuan University of Technology
基金
国家自然科学基金资助项目(U1810206)。
关键词
钙质泥岩粉尘
乏风瓦斯
混烧
金属氧化物
瓦斯氧化
calcareous mudstone dust
ventilation air methane
mixed firing
metal oxides
gas oxidation
作者简介
第一作者:马艺桐(1998-),硕士研究生,(E-mail)1119788232@qq.com;通信作者:郝朝瑜(1982-),博士,副教授,主要从事矿井火灾防治、防灾减灾与应急管理研究,(E-mail)hcy821022@163.com。
