Pilot scale test of wet dust removal by high gravity intensification technology in fertilizer plant

造粒 高重力 环境科学 填充床 体积流量 废物管理 废气 化学 环境工程 肥料 材料科学 物理 工程类 复合材料 色谱法 量子力学 发酵 有机化学 食品科学
作者
Guisheng Qi,Shangyuan Cheng,Youzhi Liu,Qiang Guo
出处
期刊:Journal of environmental chemical engineering [Elsevier BV]
卷期号:9 (6): 106424-106424 被引量:8
标识
DOI:10.1016/j.jece.2021.106424
摘要

Industrial dust can cause serious harm to the environment and human body. High gravity wet dust removal is a new type of high-efficiency dust removal technology, with the advantages of high dust removal efficiency, low economic cost, convenient operation and maintenance. In this work, a cross-flow rotating packed bed was used as the wet dust removal equipment, and a pilot scale dust removal experiment platform was built at the production site of the enterprise. The dust removal effect of high gravity wet dust removal technology on granulation waste gas in actual production was also studied. The second compound fertilizer plant of TianJi Group emitted dust-containing exhaust gas with a dust content of about 2500 mg/m3 during the production process. Different key parameters including high gravity factor, liquid flow rate and liquid circulation time were investigated on dust removal efficiency and fractional efficiency, and the mechanism of high gravity wet dust removal was analyzed. The obtained results suggested that under the conditions of gas flow rate of 400 m3/h, liquid flow rate of 0.5 m3/h and high gravity factor of 205.61, the dust removal rate was as high as 99.88% with an outlet concentration of less than 10 mg/Nm3. Under three hours of clean water absorption cycle, the dust concentration after purification could still be reduced to less than 10 mg/Nm3, and the dust removal efficiency could reach more than 99%. The relationship between the fractional efficiency of the cross-flow rotating packed bed and the dust particle size was nonlinearly fitted, which showed a good fit. High gravity wet dust removal technology increased the inertial force of particles in the gas through rotation, while atomizing the liquid into a micro liquid. The scales of the two were matched, and the inertial collision was effectively enhanced to improve the dust capture effect. Therefore, high gravity wet dust removal technology can effectively control industrial dust emissions and has a strong potential for industrial applications.

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