Combined Desulphurization and Denitrification Using Dielectric Barrier Discharge and Wet Reduction Technique
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概要
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Nitrogen oxides (NO + NO2) in most practical exhaust gases is mainly composed of NO. The injection of ozone, produced by dielectric barrier discharge, into the exhaust gas gives rise to rapid oxidation of NO into NO2. Once NO is converted into NO2, it can readily be reduced to N2 by a reducing agent in the next step. Sodium sulfide (Na2S) used as the reducing agent can also remove SO2 effectively, which makes it possible to treat NOx and SO2 simultaneously. The present two-step process through an ozonizing chamber and an absorber containing a reducing agent solution was able to remove about 95% of the NOx and 100% of the SO2, initially contained in the simulated exhaust gas. The formation of H2S from sodium sulfide was able to be suppressed by a basic reagent. The use of NaOH and CaCO3, together with the reducing agent not only prevented H2S from forming, but also cut down on the consumption of the reducing agent.
- 社団法人 化学工学会の論文
- 2006-03-01
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関連論文
- Oxidation of NO to NO_2 Using the Ozonization Method for the Improvement of Selective Catalytic Reduction
- Combined Desulphurization and Denitrification Using Dielectric Barrier Discharge and Wet Reduction Technique