Simultaneous Removal of Gaseous Elemental Mercury and Nox from Flue Gas Using Reactive Species

机译：使用反应物种同时去除烟气中的气态元素汞和NOx

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Removal of Nox and elemental mercury (Hg~0) with the reactive species produced from dielectric barrier discharge (DBD) and short wavelength ultraviolet (UV)-radiation was studied. We investigated the effect of operating parameters such as the applied voltage, residence time, initial concentration and co-existence of other pollutants. The removal of Hg~0 and NO gas was significantly promoted by an increase in the applied voltage of the DBD reactor system. It is meaningful to note that in a plasma reaction system, Hg~0 was oxidized at a lower applied voltage than NO in the gas. Short wavelength UV rays also effectively oxidized NO_x and Hg~0 to the easily treatable HNO_3 and HgO forms, respectively, due to the activity of ozone (O_3) and hydroxyl radicals (OH~·).

机译：研究了介质阻挡放电（DBD）和短波紫外线（UV）辐射产生的反应性物种对NOx和元素汞（Hg〜0）的去除。我们研究了运行参数的影响，例如施加的电压，停留时间，初始浓度和其他污染物的共存。 DBD反应器系统施加电压的增加显着促进了Hg〜0和NO气体的去除。值得注意的是，在等离子体反应系统中，Hg〜0在低于气体中NO的施加电压下被氧化。短波长紫外线由于臭氧（O_3）和羟基自由基（OH〜·）的活性，也分别有效地将NO_x和Hg〜0氧化为易于处理的HNO_3和HgO形式。

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来源
《Twenty-Fifth Annual International Conference on Incineration and Thermal Technologies(IT3) 2006 vol.1》|2006年|292-301|共10页
会议地点 SavannahGA(US)
作者
Juyoung Jeong; Sungmin Chin; Byungwha Kim; Jongsoo Jurng;
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作者单位

Environment Process Technology Division, Korea Institute of Science and Technology, 39-1 Hawolgok, Sungbuk, Seoul, Korea;

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正文语种 eng
中图分类废物处理与综合利用;
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Simultaneous Removal of Gaseous Elemental Mercury and Nox from Flue Gas Using Reactive Species

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