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The design of MnOx based catalyst in post-plasma catalysis configuration for toluene abatement

(2018) CATALYSTS. 8(2).
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Abstract
This review provides an overview of our present state of knowledge using manganese oxide (MnOx)-based catalysts for toluene abatement in PPC (Post plasma-catalysis) configuration. The context of this study is concisely sum-up. After briefly screening the main depollution methods, the principles of PPC are exposed based on the coupling of two mature technologies such as NTP (Non thermal plasma) and catalysis. In that respect, the presentation of the abundant manganese oxides will be firstly given. Then in a second step the main features of MnOx allowing better performances in the reactions expected to occur in the abatement of toluene in PPC process are reviewed including ozone decomposition, toluene ozonation, CO oxidation and toluene total oxidation. Finally, in a last part the current status of the applications of PPC using MnOx on toluene abatement are discussed. In a first step, the selected variables of the hybrid process related to the experimental conditions of toluene abatement in air are identified. The selected variables are those expected to play a role in the performances of PPC system towards toluene abatement. Then the descriptors linked to the performances of the hybrid process in terms of efficiency are given and the effects of the variables on the experimental outcomes (descriptors) are discussed. The review would serve as a reference guide for the optimization of the PPC process using MnOx-based oxides for toluene abatement.
Keywords
NTP (Non thermal plasma), principles of catalyst selection, MnOx, PPC (Post plasma-catalysis), toluene abatement, ozone decomposition ability, toluene ozonation, CO oxidation, toluene total oxidation

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MLA
Ye, Zhiping et al. “The Design of MnOx Based Catalyst in Post-plasma Catalysis Configuration for Toluene Abatement.” CATALYSTS 8.2 (2018): n. pag. Print.
APA
Ye, Zhiping, Giraudon, J.-M., De Geyter, N., Morent, R., & Lamonier, J.-F. (2018). The design of MnOx based catalyst in post-plasma catalysis configuration for toluene abatement. CATALYSTS, 8(2).
Chicago author-date
Ye, Zhiping, Jean-Marc Giraudon, Nathalie De Geyter, Rino Morent, and Jean-François Lamonier. 2018. “The Design of MnOx Based Catalyst in Post-plasma Catalysis Configuration for Toluene Abatement.” Catalysts 8 (2).
Chicago author-date (all authors)
Ye, Zhiping, Jean-Marc Giraudon, Nathalie De Geyter, Rino Morent, and Jean-François Lamonier. 2018. “The Design of MnOx Based Catalyst in Post-plasma Catalysis Configuration for Toluene Abatement.” Catalysts 8 (2).
Vancouver
1.
Ye Z, Giraudon J-M, De Geyter N, Morent R, Lamonier J-F. The design of MnOx based catalyst in post-plasma catalysis configuration for toluene abatement. CATALYSTS. 2018;8(2).
IEEE
[1]
Z. Ye, J.-M. Giraudon, N. De Geyter, R. Morent, and J.-F. Lamonier, “The design of MnOx based catalyst in post-plasma catalysis configuration for toluene abatement,” CATALYSTS, vol. 8, no. 2, 2018.
@article{8625382,
  abstract     = {This review provides an overview of our present state of knowledge using manganese oxide (MnOx)-based catalysts for toluene abatement in PPC (Post plasma-catalysis) configuration. The context of this study is concisely sum-up. After briefly screening the main depollution methods, the principles of PPC are exposed based on the coupling of two mature technologies such as NTP (Non thermal plasma) and catalysis. In that respect, the presentation of the abundant manganese oxides will be firstly given. Then in a second step the main features of MnOx allowing better performances in the reactions expected to occur in the abatement of toluene in PPC process are reviewed including ozone decomposition, toluene ozonation, CO oxidation and toluene total oxidation. Finally, in a last part the current status of the applications of PPC using MnOx on toluene abatement are discussed. In a first step, the selected variables of the hybrid process related to the experimental conditions of toluene abatement in air are identified. The selected variables are those expected to play a role in the performances of PPC system towards toluene abatement. Then the descriptors linked to the performances of the hybrid process in terms of efficiency are given and the effects of the variables on the experimental outcomes (descriptors) are discussed. The review would serve as a reference guide for the optimization of the PPC process using MnOx-based oxides for toluene abatement.},
  articleno    = {91},
  author       = {Ye, Zhiping and Giraudon, Jean-Marc and De Geyter, Nathalie and Morent, Rino and Lamonier, Jean-François},
  issn         = {2073-4344},
  journal      = {CATALYSTS},
  keywords     = {NTP (Non thermal plasma),principles of catalyst selection,MnOx,PPC (Post plasma-catalysis),toluene abatement,ozone decomposition ability,toluene ozonation,CO oxidation,toluene total oxidation},
  language     = {eng},
  number       = {2},
  title        = {The design of MnOx based catalyst in post-plasma catalysis configuration for toluene abatement},
  url          = {http://dx.doi.org/10.3390/catal8020091},
  volume       = {8},
  year         = {2018},
}

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