Removal Dynamics of Nitric Oxide (NO) Pollutant Gas by Pulse-Discharged Plasma Technique

Removal Dynamics of Nitric Oxide (NO) Pollutant Gas by Pulse-Discharged Plasma Technique

Nonthermal plasma technique has drawn extensive attentions for removal of air pollutants such as NOx and SO2. The NO removal mechanism in pulse discharged plasma is discussed in this paper. Emission spectra diagnosis indicates that the higher the discharge voltage is, the more the NO are removed and...

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Main Authors: Lianshui Zhang, Xiaojun Wang, Weidong Lai, Xueliang Cheng, Kuifang Zhao
Format: Article
Language:English
Published: Hindawi Limited 2014-01-01
Series:The Scientific World Journal
Online Access:http://dx.doi.org/10.1155/2014/653576
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spelling doaj-4108efcf060947d3a8d70ec1bc4ada0c2020-11-25T01:36:55ZengHindawi LimitedThe Scientific World Journal2356-61401537-744X2014-01-01201410.1155/2014/653576653576Removal Dynamics of Nitric Oxide (NO) Pollutant Gas by Pulse-Discharged Plasma TechniqueLianshui Zhang0Xiaojun Wang1Weidong Lai2Xueliang Cheng3Kuifang Zhao4College of Physics Science and Technology, Hebei University, Baoding, Hebei Province 071002, ChinaCollege of Physics Science and Technology, Hebei University, Baoding, Hebei Province 071002, ChinaCollege of Physics Science and Technology, Hebei University, Baoding, Hebei Province 071002, ChinaCollege of Physics Science and Technology, Hebei University, Baoding, Hebei Province 071002, ChinaCollege of Physics Science and Technology, Hebei University, Baoding, Hebei Province 071002, ChinaNonthermal plasma technique has drawn extensive attentions for removal of air pollutants such as NOx and SO2. The NO removal mechanism in pulse discharged plasma is discussed in this paper. Emission spectra diagnosis indicates that the higher the discharge voltage is, the more the NO are removed and transformed into O, N, N2, NO2, and so forth. Plasma electron temperature Te is ranged from 6400 K at 2.4 kV discharge voltage to 9500 K at 4.8 kV. After establishing a zero-dimensional chemical reaction kinetic model, the major reaction paths are clarified as the electron collision dissociation of NO into N and O during discharge and followed by single substitution of N on NO to form N2 during and after discharge, compared with the small fraction of NO2 formed by oxidizing NO. The reaction directions can be adjusted by N2 additive, and the optimal N2/NO mixing ratio is 2 : 1. Such a ratio not only compensates the disadvantage of electron competitive consumption by the mixed N2, but also heightens the total NO removal extent through accelerating the NO oxidization process.http://dx.doi.org/10.1155/2014/653576
collection DOAJ
language English
format Article
sources DOAJ
author Lianshui Zhang
Xiaojun Wang
Weidong Lai
Xueliang Cheng
Kuifang Zhao
spellingShingle Lianshui Zhang
Xiaojun Wang
Weidong Lai
Xueliang Cheng
Kuifang Zhao
Removal Dynamics of Nitric Oxide (NO) Pollutant Gas by Pulse-Discharged Plasma Technique
The Scientific World Journal
author_facet Lianshui Zhang
Xiaojun Wang
Weidong Lai
Xueliang Cheng
Kuifang Zhao
author_sort Lianshui Zhang
title Removal Dynamics of Nitric Oxide (NO) Pollutant Gas by Pulse-Discharged Plasma Technique
title_short Removal Dynamics of Nitric Oxide (NO) Pollutant Gas by Pulse-Discharged Plasma Technique
title_full Removal Dynamics of Nitric Oxide (NO) Pollutant Gas by Pulse-Discharged Plasma Technique
title_fullStr Removal Dynamics of Nitric Oxide (NO) Pollutant Gas by Pulse-Discharged Plasma Technique
title_full_unstemmed Removal Dynamics of Nitric Oxide (NO) Pollutant Gas by Pulse-Discharged Plasma Technique
title_sort removal dynamics of nitric oxide (no) pollutant gas by pulse-discharged plasma technique
publisher Hindawi Limited
series The Scientific World Journal
issn 2356-6140
1537-744X
publishDate 2014-01-01
description Nonthermal plasma technique has drawn extensive attentions for removal of air pollutants such as NOx and SO2. The NO removal mechanism in pulse discharged plasma is discussed in this paper. Emission spectra diagnosis indicates that the higher the discharge voltage is, the more the NO are removed and transformed into O, N, N2, NO2, and so forth. Plasma electron temperature Te is ranged from 6400 K at 2.4 kV discharge voltage to 9500 K at 4.8 kV. After establishing a zero-dimensional chemical reaction kinetic model, the major reaction paths are clarified as the electron collision dissociation of NO into N and O during discharge and followed by single substitution of N on NO to form N2 during and after discharge, compared with the small fraction of NO2 formed by oxidizing NO. The reaction directions can be adjusted by N2 additive, and the optimal N2/NO mixing ratio is 2 : 1. Such a ratio not only compensates the disadvantage of electron competitive consumption by the mixed N2, but also heightens the total NO removal extent through accelerating the NO oxidization process.
url http://dx.doi.org/10.1155/2014/653576
work_keys_str_mv AT lianshuizhang removaldynamicsofnitricoxidenopollutantgasbypulsedischargedplasmatechnique
AT xiaojunwang removaldynamicsofnitricoxidenopollutantgasbypulsedischargedplasmatechnique
AT weidonglai removaldynamicsofnitricoxidenopollutantgasbypulsedischargedplasmatechnique
AT xueliangcheng removaldynamicsofnitricoxidenopollutantgasbypulsedischargedplasmatechnique
AT kuifangzhao removaldynamicsofnitricoxidenopollutantgasbypulsedischargedplasmatechnique
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