DECOMPOSITION OF BENZENE IN DRY AIR BY SUPER-IMPOSED BARRIER DISCHARGE NONTHERMAL PLASMA-PHOTOCATALYTIC SYSTEM

Tao Zhu; Dongyao Xu; Xuwen He; Xinqian Shu; Jian Li; Wenjun Liang; Yuquan Jin; Yandong Wan; Qiong Wu; Ying Hu

首页> 外文期刊>Fresenius Environmental Bulletin >DECOMPOSITION OF BENZENE IN DRY AIR BY SUPER-IMPOSED BARRIER DISCHARGE NONTHERMAL PLASMA-PHOTOCATALYTIC SYSTEM

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DECOMPOSITION OF BENZENE IN DRY AIR BY SUPER-IMPOSED BARRIER DISCHARGE NONTHERMAL PLASMA-PHOTOCATALYTIC SYSTEM

机译：超强阻挡层放电非热等离子体光催化体系在干燥空气中苯的分解

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A hybrid system comprising a nonthermal plasma (NTP) reactor packed with two kinds of material (A & B) and nano-titania catalyst was used for benzene decomposition. Firstly, the paper compares the effects of packed materials A & B on benzene decomposition in the plasma reactor. The results showed that simple B material, and especially B coated with nano-titania catalyst (hybrid system), had better removal efficiencies of benzene than A. Additionally, the latter saved power consumption and controlled the reaction products effectively. The selectivity of carbon dioxide or carbon monoxide in the hybrid system was higher than the simple NTP system. At last, the reaction mechanism of NTP with photo-catalyst was discussed.

机译：混合系统包括一个装有两种材料（A和B）和纳米二氧化钛催化剂的非热等离子体（NTP）反应器，用于苯的分解。首先，本文比较了填充材料A和B对等离子体反应器中苯分解的影响。结果表明，简单的B材料，特别是包覆有纳米二氧化钛催化剂（混合体系）的B具有比A更好的苯去除效率。此外，后者节省了功率并有效地控制了反应产物。混合系统中二氧化碳或一氧化碳的选择性高于简单NTP系统。最后讨论了NTP与光催化剂的反应机理。

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来源
《Fresenius Environmental Bulletin》 |2010年第7期|P.1275-1282|共8页
作者
Tao Zhu; Dongyao Xu; Xuwen He; Xinqian Shu; Jian Li; Wenjun Liang; Yuquan Jin; Yandong Wan; Qiong Wu; Ying Hu;
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作者单位

China University of Mining & Technology, School of Chemical and Environmental Engineering Ding No. 11, Xueyuan Rode Haidan District Beijing 100083 P.R. CHINA;

rnSchool of Chemical and Environmental Engineering, China University of Mining& Technology, Beijing 100083, China;

rnSchool of Chemical and Environmental Engineering, China University of Mining& Technology, Beijing 100083, China;

rnSchool of Chemical and Environmental Engineering, China University of Mining& Technology, Beijing 100083, China;

College of Environmental & Energy Engineering, Beijng University of Technology, Beijing 100124, China;

rnCollege of Environmental & Energy Engineering, Beijng University of Technology, Beijing 100124, China;

rnCollege of Environmental & Energy Engineering, Beijng University of Technology, Beijing 100124, China;

rnSchool of Chemical and Environmental Engineering, China University of Mining& Technology, Beijing 100083, China;

rnSchool of Chemical and Environmental Engineering, China University of Mining& Technology, Beijing 100083, China;

rnSchool of Chemical and Environmental Engineering, China University of Mining& Technology, Beijing 100083, China;

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正文语种 eng
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packed material; catalyst; non-thermal plasma; removal efficiency;

机译：包装材料催化剂;非热等离子体去除效率;

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1. Highly concentrated toluene decomposition on the dielectric barrier discharge (DBD) plasma-photocatalytic hybrid system with Mn-Ti-incorporated mesoporous silicate photocatalyst (Mn-Ti-MPS) [J] . Ji-Young Ban, Yeon-Hee Son, Misook Kang, Applied Surface Science . 2006,第2期

机译：Mn-Ti结合介孔硅酸盐光催化剂（Mn-Ti-MPS）在电介质阻挡放电（DBD）等离子体-光催化混合系统上高浓度甲苯分解
2. Highly concentrated toluene decomposition on the dielectric barrier discharge (DBD) plasma-photocatalytic hybrid system with Mn-Ti-incorporated mesoporous silicate photocatalyst (Mn-Ti-MPS) [J] . Ban JY, Son YH, Kang M, Applied Surface Science . 2006,第2期

机译：Mn-Ti结合介孔硅酸盐光催化剂（Mn-Ti-MPS）在电介质阻挡放电（DBD）等离子体-光催化混合系统上高浓度甲苯分解
3. Study of Humidity Effect on Benzene Decomposition by the Dielectric Barrier Discharge Nonthermal Plasma Reactor [J] . Ma Tianpeng, Zhao Qiong, Liu Jianqi, Plasma Science & Technology . 2016,第6期

机译：介质阻挡放电非热等离子体反应器对苯分解的湿度影响研究
4. Development of an analytical model for nonthermal atmospheric barrier discharges [C] . Shi, J.J., Deng, . 2003

机译：开发非热大气屏障排放的分析模型
5. Nitrogen oxide decomposition by barrier discharge. [D] . McLarnon, Christopher Rob. 1996

机译：氮氧化物通过势垒放电分解。
6. Preferential killing of human lung cancer cell lines with mitochondrial dysfunction by nonthermal dielectric barrier discharge plasma [O] . K Panngom, K Y Baik, M K Nam, 2013

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7. Decomposition of Benzene by Barrier Discharge in N₂ at Low Concentrations of O₂ [O] . Naohiko Goto, Hideto Kurimoto, Satoshi Kudo, 2003

机译：在低浓度O _{2 中，通过阻隔放电分解苯并分解。}

DECOMPOSITION OF BENZENE IN DRY AIR BY SUPER-IMPOSED BARRIER DISCHARGE NONTHERMAL PLASMA-PHOTOCATALYTIC SYSTEM

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