摘要
通过大型冷模实验考察了气固逆流式移动床过滤器床层表观气速、再生气速对装备操作的影响。在无尘负荷条件下,装备压降随床层表观气速增大呈抛物线式上升的关系;能够用修正的Ergun公式进行预测。通过加尘实验发现,除尘效率与气体停留时间变化趋势相同,且与再生气速呈正相关。床层压降则表现出与床层气速呈正相关、与再生气速呈负相关的变化趋势。实验结果表明,该装备对于粉尘的捕集效率较高,在入口浓度为8.175 g/m^(3)、表观气速在0.122~0.305 m/s范围内,除尘效率始终大于98.0%,且对13μm以下的细微粉尘有较高的粒级效率,接近99.99%。
Granular bed filtration is one of the most promising high-temperature filtration technologies and has good prospects for application in environmental protection or in industrial production.Compared to the fixed bed,the moving bed filters with the stability for long-cycle operation are more in line with practical requirements.The influences of the superficial gas velocity and the regeneration gas velocity on the gas-solid countercurrent moving bed filter are investigated by cold model experiment.Under the dust-free operating conditions,it is found that the bed pressure drop increased parabolically with the superficial gas velocity.It can also be estimated by the modified Ergun formula.Under the operating condition of dustleaden,on the other hand,it is proved that the variation trend of dust removal efficiency is the same as that of gas residence time.It is positively correlated with the regeneration gas velocity.The gas residence time is mainly influenced by the superficial gas velocity and the accumulation of dust in the filter,which varies as the experiment proceeds.The pressure drop of the bed is positively correlated with the gas velocity whereas is negatively correlated with the gas regeneration velocity.The experimental results show that the dust collection efficiency of this equipment is fairly high.When the superficial gas velocity ranges from 0.122 m/s to 0.305 m/s,with the inlet concentration of 8.175 g/m3,the dust removal efficiency is generally higher than 98.0%.The bed pressure drop always maintains dynamic equilibrium within a certain range,and the maximum rise does not exceed±0.05 kPa.The fraction efficiency for the fine dusts smaller than 13μm also achieves 99.99%.
作者
邢凯
吕涵
范怡平
卢春喜
孙富伟
Kai XING;Han LU;Yiping FAN;Chunxi LU;Fuwei SUN(College of Mechanical and Transportation Engineering,China University of Petroleum,Beijing 102249,China;College of Chemical Engineering and Environment,China University of Petroleum,Beijing 102249,China;China Kunlun Contracting and Engineering Co.,Ltd.,Beijing 100037,China)
出处
《过程工程学报》
CAS
CSCD
北大核心
2023年第5期662-671,共10页
The Chinese Journal of Process Engineering
基金
国家自然科学基金资助项目(编号:U1862202)。
关键词
移动床过滤器
逆流式
除尘效率
压降
moving bed filter
countercurrent
dust removal efficiency
pressure drop
