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O3氧化-湿式镁法同步脱除烧结烟气中NOx和SO2的中试研究
引用本文:胡沈达,苏伟,邢奕,张振威,周静,王键,夏经亮. O3氧化-湿式镁法同步脱除烧结烟气中NOx和SO2的中试研究[J]. 环境工程, 2020, 38(5): 102-106. DOI: 10.13205/j.hjgc.202005018
作者姓名:胡沈达  苏伟  邢奕  张振威  周静  王键  夏经亮
作者单位:1. 北京科技大学, 北京 100091;
摘    要:为了探究烧结烟气O3镁法吸收技术的实际应用情况,对模拟烧结烟气开展O3氧化镁法吸收技术的中试研究。采用中晶中试试验平台研究验证O3氧化镁法吸收技术的脱硫脱硝超低排放路线,研究表明:在烟气量为1000 m3/h,ρ(SO2)为1500 mg/m3,ρ(NO)为280 mg/m3,烟温为130℃的条件下,将n(O3)∶n(NO)控制在1.5∶1以上时,NO氧化效率可稳定达到100%,系统整体NOx脱除率可达到90%,出口的ρ(NOx)可维持在20~35 mg/m3。研究结果表明,中试条件下O3氧化镁法吸收技术应用于烧结烟气脱硫脱硝满足钢铁行业对硫氧化物和NOx的超低排放标准。

关 键 词:O3镁法  同时脱硫脱硝  协同去除  中试试验
收稿时间:2019-09-30

PILOT-SCALE TEST ON REMOVAL OF NOx AND SO2 FROM SINTERING FLUE GAS BY OZONE OXIDATION COMBINED WITH MAGNESIUM WET ABSORPTION
HU Shen-da,SU Wei,XING Yi,ZHANG Zhen-wei,ZHOU Jing,WANG Jian,XIA Jing-liang. PILOT-SCALE TEST ON REMOVAL OF NOx AND SO2 FROM SINTERING FLUE GAS BY OZONE OXIDATION COMBINED WITH MAGNESIUM WET ABSORPTION[J]. Environmental Engineering, 2020, 38(5): 102-106. DOI: 10.13205/j.hjgc.202005018
Authors:HU Shen-da  SU Wei  XING Yi  ZHANG Zhen-wei  ZHOU Jing  WANG Jian  XIA Jing-liang
Affiliation:1. Beijing University of Science and Technology, Beijing 100091, China;2. Shoucheng(Beijing) Science & Trade Co., Ltd, Beijing 101300, China;3. Zhongjing Environmental Technology Co., Ltd, Beijing 100176, China
Abstract:In order to explore the practical application of sintering flue gas purification technology of ozone oxidation combined with magnesium wet absorption, a pilot study on simulated sintering flue gas was carried out. The ultra-low emission route of desulfuration and denitrification by MgO absorption technology was studied and verified by a pilot scale test platform. The results showed that, flue gas volume of 1000 m3/h, SO2 concentration of 1500 mg/m3, NO concentration of 280 mg/m3, smoke temperature of 130 ℃ and n(O3)∶n(NO) above 1.5∶1, the NO oxidation efficiency could reach 100%, the total NOx removal rate of the system reached 90%, and the NOx concentration at the outlet could be maintained in 20~35 mg/m3. The results showed that the application of ozone oxidation-MgO absorption technology in desulfurization and denitrification of sintering flue gas could meet the ultra-low emission standards of sulfur oxides and nitrogen oxides in the iron and steel industry.
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