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Decomposition of toluene with plasma-catalysis: a review

Arne Vandenbroucke (UGent) , Rino Morent (UGent) , Nathalie De Geyter (UGent) and Christophe Leys (UGent)
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Abstract
Non-thermal plasma (NTP) generated at atmospheric pressure has been widely applied to abate the harmful emission of gaseous pollutants such as volatile organic compounds (VOCs). These studies have proven the existence of some drawbacks that hinder commercialization, such as a low energy efficiency and mineralization degree with the formation of undesired byproducts as a consequence. Recently, NTP has successfully been combined with catalysis in an attempt to solve these issues through complex interacting mechanisms. Toluene can be regarded as being the most frequent studied VOC for removal with plasma-catalysis on laboratory scale. Therefore, this paper aims at reviewing the current research on this model VOC.
Keywords
CORONA DISCHARGE, DIELECTRIC BARRIER DISCHARGE, ASSISTED CATALYSIS, PRESSURE GAS STREAMS, AIR-POLLUTION CONTROL, ATMOSPHERIC-PRESSURE, BY-PRODUCT DISTRIBUTION, DILUTE TOLUENE, NONTHERMAL PLASMA, VOLATILE ORGANIC-COMPOUNDS

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Citation

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Chicago
Vandenbroucke, Arne, Rino Morent, Nathalie De Geyter, and Christophe Leys. 2012. “Decomposition of Toluene with Plasma-catalysis: a Review.” Journal of Advanced Oxidation Technologies 15 (2): 232–241.
APA
Vandenbroucke, Arne, Morent, R., De Geyter, N., & Leys, C. (2012). Decomposition of toluene with plasma-catalysis: a review. JOURNAL OF ADVANCED OXIDATION TECHNOLOGIES, 15(2), 232–241.
Vancouver
1.
Vandenbroucke A, Morent R, De Geyter N, Leys C. Decomposition of toluene with plasma-catalysis: a review. JOURNAL OF ADVANCED OXIDATION TECHNOLOGIES. 2012;15(2):232–41.
MLA
Vandenbroucke, Arne, Rino Morent, Nathalie De Geyter, et al. “Decomposition of Toluene with Plasma-catalysis: a Review.” JOURNAL OF ADVANCED OXIDATION TECHNOLOGIES 15.2 (2012): 232–241. Print.
@article{2009562,
  abstract     = {Non-thermal plasma (NTP) generated at atmospheric pressure has been widely applied to abate the harmful emission of gaseous pollutants such as volatile organic compounds (VOCs). These studies have proven the existence of some drawbacks that hinder commercialization, such as a low energy efficiency and mineralization degree with the formation of undesired byproducts as a consequence. Recently, NTP has successfully been combined with catalysis in an attempt to solve these issues through complex interacting mechanisms. Toluene can be regarded as being the most frequent studied VOC for removal with plasma-catalysis on laboratory scale. Therefore, this paper aims at reviewing the current research on this model VOC.},
  author       = {Vandenbroucke, Arne and Morent, Rino and De Geyter, Nathalie and Leys, Christophe},
  issn         = {1203-8407},
  journal      = {JOURNAL OF ADVANCED OXIDATION TECHNOLOGIES},
  keyword      = {CORONA DISCHARGE,DIELECTRIC BARRIER DISCHARGE,ASSISTED CATALYSIS,PRESSURE GAS STREAMS,AIR-POLLUTION CONTROL,ATMOSPHERIC-PRESSURE,BY-PRODUCT DISTRIBUTION,DILUTE TOLUENE,NONTHERMAL PLASMA,VOLATILE ORGANIC-COMPOUNDS},
  language     = {eng},
  number       = {2},
  pages        = {232--241},
  title        = {Decomposition of toluene with plasma-catalysis: a review},
  volume       = {15},
  year         = {2012},
}

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