ポスター発表
- 第3日 5月17日(水) P会場(ホワイエ,会議室1004-1007)
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3P-15(1C-O-1030) PDF
大気圧負極性コロナ放電内で生成する窒素酸化物系イオンの強度分布の解析
In atmospheric pressure plasma such as an electrostatic precipitator, it has been regarded as a problem that nitrogen oxides generated as discharge by-products cause corrosion of electrodes. However, there are many unclear issues about how they are generated and moved in an electric field. In this study, the position of the needle electrode was changed, and an intensity distribution of nitrogen oxide-related ions reaching the counter electrode was obtained by an atmospheric pressure negative corona discharge ionization mass spectrometry. It was compared with a modeled distribution of tunneling current emitted from the needle electrode and number of nitrogen molecules cleaved by electrons accelerated under the electric field using conformal mapping method. As a result, it was suggested that NO2- and NO3- intensities are correlated with the tunneling current and the number of cleaved nitrogen molecules, respectively.