Mn-based catalysts for post non-thermal plasma catalytic abatement of VOCs : a review on experiments, simulations and modeling
- Author
- Tian Chang, Chuanlong Ma (UGent) , Zhenxing Shen, Savita Kaliya Perumal Veerapandian, Yu Huang, Nathalie De Geyter (UGent) and Rino Morent (UGent)
- Organization
- Abstract
- The combination of non-thermal plasma (NTP) and catalyst characterized by high energy efficiency, enhanced volatile organic compounds (VOCs) removal efficiency, high product selectivity, and low production of unwanted and/or toxic by-products possesses a great promise for the abatement of VOCs. This work reviews the state of knowledge regarding Mn-based catalysts for VOCs abatement in the post-plasma-catalytic (PPC) system. First, the development and the performance of different Mn-based catalysts such as pure manganese oxide, mixed manganese oxide-based catalysts, and supported Mn-based catalysts in terms of VOCs abatement and O-3 decomposition are summarized. Then, the mechanism of the VOCs decomposition in the NTP and PPC system is discussed. Finally, the modeling and simulation of VOCs abatement in the NTP and PPC system are overviewed. This review aims at providing a reference guide for the development and optimization of VOCs abatement in the PPC system using Mn-based catalysts.
- Keywords
- Non-thermal plasma, Mn-based catalyst, VOCs abatement, Mechanism, Modeling and simulation, VOLATILE ORGANIC-COMPOUNDS, MANGANESE OXIDE CATALYST, OZONE DECOMPOSITION, ATMOSPHERIC-PRESSURE, CORONA DISCHARGE, BY-PRODUCTS, INDOOR AIR, TOLUENE DECOMPOSITION, GASEOUS OZONE, RELATIVE-HUMIDITY
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Citation
Please use this url to cite or link to this publication: http://hdl.handle.net/1854/LU-8715042
- MLA
- Chang, Tian, et al. “Mn-Based Catalysts for Post Non-Thermal Plasma Catalytic Abatement of VOCs : A Review on Experiments, Simulations and Modeling.” PLASMA CHEMISTRY AND PLASMA PROCESSING, vol. 41, no. 5, 2021, pp. 1239–78, doi:10.1007/s11090-021-10195-2.
- APA
- Chang, T., Ma, C., Shen, Z., Kaliya Perumal Veerapandian, S., Huang, Y., De Geyter, N., & Morent, R. (2021). Mn-based catalysts for post non-thermal plasma catalytic abatement of VOCs : a review on experiments, simulations and modeling. PLASMA CHEMISTRY AND PLASMA PROCESSING, 41(5), 1239–1278. https://doi.org/10.1007/s11090-021-10195-2
- Chicago author-date
- Chang, Tian, Chuanlong Ma, Zhenxing Shen, Savita Kaliya Perumal Veerapandian, Yu Huang, Nathalie De Geyter, and Rino Morent. 2021. “Mn-Based Catalysts for Post Non-Thermal Plasma Catalytic Abatement of VOCs : A Review on Experiments, Simulations and Modeling.” PLASMA CHEMISTRY AND PLASMA PROCESSING 41 (5): 1239–78. https://doi.org/10.1007/s11090-021-10195-2.
- Chicago author-date (all authors)
- Chang, Tian, Chuanlong Ma, Zhenxing Shen, Savita Kaliya Perumal Veerapandian, Yu Huang, Nathalie De Geyter, and Rino Morent. 2021. “Mn-Based Catalysts for Post Non-Thermal Plasma Catalytic Abatement of VOCs : A Review on Experiments, Simulations and Modeling.” PLASMA CHEMISTRY AND PLASMA PROCESSING 41 (5): 1239–1278. doi:10.1007/s11090-021-10195-2.
- Vancouver
- 1.Chang T, Ma C, Shen Z, Kaliya Perumal Veerapandian S, Huang Y, De Geyter N, et al. Mn-based catalysts for post non-thermal plasma catalytic abatement of VOCs : a review on experiments, simulations and modeling. PLASMA CHEMISTRY AND PLASMA PROCESSING. 2021;41(5):1239–78.
- IEEE
- [1]T. Chang et al., “Mn-based catalysts for post non-thermal plasma catalytic abatement of VOCs : a review on experiments, simulations and modeling,” PLASMA CHEMISTRY AND PLASMA PROCESSING, vol. 41, no. 5, pp. 1239–1278, 2021.
@article{8715042, abstract = {{The combination of non-thermal plasma (NTP) and catalyst characterized by high energy efficiency, enhanced volatile organic compounds (VOCs) removal efficiency, high product selectivity, and low production of unwanted and/or toxic by-products possesses a great promise for the abatement of VOCs. This work reviews the state of knowledge regarding Mn-based catalysts for VOCs abatement in the post-plasma-catalytic (PPC) system. First, the development and the performance of different Mn-based catalysts such as pure manganese oxide, mixed manganese oxide-based catalysts, and supported Mn-based catalysts in terms of VOCs abatement and O-3 decomposition are summarized. Then, the mechanism of the VOCs decomposition in the NTP and PPC system is discussed. Finally, the modeling and simulation of VOCs abatement in the NTP and PPC system are overviewed. This review aims at providing a reference guide for the development and optimization of VOCs abatement in the PPC system using Mn-based catalysts.}}, author = {{Chang, Tian and Ma, Chuanlong and Shen, Zhenxing and Kaliya Perumal Veerapandian, Savita and Huang, Yu and De Geyter, Nathalie and Morent, Rino}}, issn = {{0272-4324}}, journal = {{PLASMA CHEMISTRY AND PLASMA PROCESSING}}, keywords = {{Non-thermal plasma,Mn-based catalyst,VOCs abatement,Mechanism,Modeling and simulation,VOLATILE ORGANIC-COMPOUNDS,MANGANESE OXIDE CATALYST,OZONE DECOMPOSITION,ATMOSPHERIC-PRESSURE,CORONA DISCHARGE,BY-PRODUCTS,INDOOR AIR,TOLUENE DECOMPOSITION,GASEOUS OZONE,RELATIVE-HUMIDITY}}, language = {{eng}}, number = {{5}}, pages = {{1239--1278}}, title = {{Mn-based catalysts for post non-thermal plasma catalytic abatement of VOCs : a review on experiments, simulations and modeling}}, url = {{http://doi.org/10.1007/s11090-021-10195-2}}, volume = {{41}}, year = {{2021}}, }
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