Plasma-assisted catalytic decomposition of paint exhaust with nano-TiO2/SMF electrode

Yao Shi; Bo Lun Wei; Zhi Ping Ye; Yan Ping Chen; Yi He

doi:10.3969/j.issn.1003-9015.2015.01.031

Plasma-assisted catalytic decomposition of paint exhaust with nano-TiO₂/SMF electrode

Yao Shi, Bo Lun Wei, Zhi Ping Ye, Yan Ping Chen, Yi He

Zhejiang University

科研成果: 期刊稿件 › 文章 › 同行评审

1 引用（Scopus）

摘要

Decomposition of xylene, the major constituent of paint exhaust, was conducted in the lab by NTP (non-thermal plasma). The novel SMF (sintered metal fiber) and its modified material nano-TiO₂/SMF were adopted as the electrodes of the DBD (dielectric barrier discharges) reactor. Results showed that the maximum decomposition efficiency with nano-TiO₂/SMF electrodes could reach 92.1%. It is significantly higher than the efficiency obtained with regular SMF electrodes. Moreover, it was observed that nitrogen in carrier gas considerably promoted the activity of the catalytic performance of nano-TiO₂/SMF electrodes. The effects of TiO₂ loading, the composition of carrier gas, the peak voltage of electrodes, and relative humidity on the decomposition efficiency of xylene were also investigated in detail.

源语言	英语
页（从-至）	208-213
页数	6
期刊	Gao Xiao Hua Xue Gong Cheng Xue Bao/Journal of Chemical Engineering of Chinese Universities
卷	29
期	1
DOI	https://doi.org/10.3969/j.issn.1003-9015.2015.01.031
出版状态	已出版 - 1 2月 2015
已对外发布	是

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10.3969/j.issn.1003-9015.2015.01.031

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abstract = "Decomposition of xylene, the major constituent of paint exhaust, was conducted in the lab by NTP (non-thermal plasma). The novel SMF (sintered metal fiber) and its modified material nano-TiO2/SMF were adopted as the electrodes of the DBD (dielectric barrier discharges) reactor. Results showed that the maximum decomposition efficiency with nano-TiO2/SMF electrodes could reach 92.1%. It is significantly higher than the efficiency obtained with regular SMF electrodes. Moreover, it was observed that nitrogen in carrier gas considerably promoted the activity of the catalytic performance of nano-TiO2/SMF electrodes. The effects of TiO2 loading, the composition of carrier gas, the peak voltage of electrodes, and relative humidity on the decomposition efficiency of xylene were also investigated in detail.",

keywords = "Paint exhaust, Plasma, Sintered metal fiber, Titania, Xylene",

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AU - Shi, Yao

AU - Wei, Bo Lun

AU - Ye, Zhi Ping

AU - Chen, Yan Ping

AU - He, Yi

PY - 2015/2/1

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N2 - Decomposition of xylene, the major constituent of paint exhaust, was conducted in the lab by NTP (non-thermal plasma). The novel SMF (sintered metal fiber) and its modified material nano-TiO2/SMF were adopted as the electrodes of the DBD (dielectric barrier discharges) reactor. Results showed that the maximum decomposition efficiency with nano-TiO2/SMF electrodes could reach 92.1%. It is significantly higher than the efficiency obtained with regular SMF electrodes. Moreover, it was observed that nitrogen in carrier gas considerably promoted the activity of the catalytic performance of nano-TiO2/SMF electrodes. The effects of TiO2 loading, the composition of carrier gas, the peak voltage of electrodes, and relative humidity on the decomposition efficiency of xylene were also investigated in detail.

AB - Decomposition of xylene, the major constituent of paint exhaust, was conducted in the lab by NTP (non-thermal plasma). The novel SMF (sintered metal fiber) and its modified material nano-TiO2/SMF were adopted as the electrodes of the DBD (dielectric barrier discharges) reactor. Results showed that the maximum decomposition efficiency with nano-TiO2/SMF electrodes could reach 92.1%. It is significantly higher than the efficiency obtained with regular SMF electrodes. Moreover, it was observed that nitrogen in carrier gas considerably promoted the activity of the catalytic performance of nano-TiO2/SMF electrodes. The effects of TiO2 loading, the composition of carrier gas, the peak voltage of electrodes, and relative humidity on the decomposition efficiency of xylene were also investigated in detail.

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KW - Plasma

KW - Sintered metal fiber

KW - Titania

KW - Xylene

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Plasma-assisted catalytic decomposition of paint exhaust with nano-TiO2/SMF electrode

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Plasma-assisted catalytic decomposition of paint exhaust with nano-TiO₂/SMF electrode