Abatement of Toluene by Reverse-Flow Nonthermal Plasma Reactor Coupled with Catalyst

Wenjun Liang,Huipin Sun,Yuxue Zhu,Xiujuan Shi

doi:10.3390/catal10050511

Wenjun Liang, Huipin Sun + Show 2 more

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https://doi.org/10.3390/catal10050511

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Journal: Catalysts	Publication Date: May 7, 2020
Citations: 13	License type: CC BY 4.0

Affiliation: Beijing University of Technology

Abstract

In order to make full use of the heat in nonthermal plasma systems and decrease the generation of by-products, a reverse-flow nonthermal plasma reactor coupled with catalyst was used for the abatement of toluene. In this study, the toluene degradation performance of different reactors was compared under the same conditions. The mechanism of toluene abatement by nonthermal plasma coupled with catalyst was explored, combined with the generation of ozone (O3), NO2, and organic by-products during the reaction process. It was found that a long reverse cycle time of the reactor and a short residence time of toluene decreased the internal reactor temperature, which was not beneficial for the degradation of toluene. Compared with the dielectric barrier discharge (DBD) reactor, toluene degradation efficiency in the double dielectric barrier discharge (DDBD) reactor was improved at the same discharge energy level, but the concentrations of NO2 and O3 in the effluent were relatively high; this was improved after the introduction of a catalyst. In the reverse-flow nonthermal plasma reactor coupled with catalyst, the CO2 selectivity was the highest, while the selectivity and amount of NO2 was the lowest and aromatics, acids, and ketones were the main gaseous organic by-products in the effluent. The reverse-flow DBD-catalyst reactor was successful in decreasing organic by-products, while the types of organic by-products in the DDBD reactor were much more than those in the DBD reactor.

Highlights

Volatile organic compounds (VOCs) are atmospheric pollutants that are harmful to human health and the environment and have attracted increasing attention
In order to make full use of the heat in a nonthermal plasma system and decrease the generation of by-products, a reverse-flow nonthermal plasma reactor coupled with catalysts was used for the abatement of toluene
In order to make full use of the heat in nonthermal plasma systems and decrease the generation of by-products, a reverse-flow nonthermal plasma reactor coupled with catalysts was used for the abatement of toluene

Summary

Introduction

Volatile organic compounds (VOCs) are atmospheric pollutants that are harmful to human health and the environment and have attracted increasing attention. Toluene is a typical VOC [1,2] that has harmful effects on the human body, especially the nervous system. According to the placement of catalysts, DBD can be divided into in-plasma catalysis (IPC) and post-plasma catalysis (PPC). According to the discharge setup, DBD can be divided into volumetric DBD, surface DBD [6], and hybrid setups. The most commonly used DBD reactor setup combined with a catalyst is volumetric DBD with IPC [7]. In experimental research, compared with plate-to-plate or parallel-plate DBD devices, annular or packed-bed DBD devices are widely used in plasma catalysis research, due to their convenient set-up

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Conclusion