Role of Organic Chemical Additives in Pulsed Corona Discharge Process for Conversion of NO
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概要
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We have applied the pulsed corona discharge process to the removal of NO from a simulated gas stream. The effect of alcoholic and aliphatic hydrocarbon additives on the oxidation of NO to NO2 was investigated, and some possible reaction schemes for the role of the additives in enhancement of NO conversion were suggested on the basis of their cracking patterns. The conversion of NO increased with the chain length of the alcohol used. In the presence of aliphatic hydrocarbon, the conversion of NO was also greatly enhanced. Comparison between alkyl alcohol or alkane and its isomer showed that alkyl alcohol or alkane gave better removal performance than its isomer. By using the alcoholic and aliphatic hydrocarbons, large reduction in energy requirement for NO removal was achieved.
- 社団法人 化学工学会の論文
著者
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Nam I‐s
Pohang Univ. Sci. And Technol. Pohang Kor
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Nam In-sik
Environment & Energy Research Division Research Institute Of Industrial Science & Technology
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MOK Young-Sun
Environment & Energy Research Division, Research Institute of Industrial Science & Technology
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Mok Young-sun
Environment & Energy Research Division Research Institute Of Industrial Science & Technology
関連論文
- Use of V_2O_5/Ti-PILC Catalyst for the Reduction of NO by NH_3
- Role of Organic Chemical Additives in Pulsed Corona Discharge Process for Conversion of NO