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Publishing Language: Chinese

Comprehensive experimental platform for BTEX purification based on alternating adsorption-low temperature plasma enhanced catalysis

Ye SUN1,2Shengyuan JI1Mingpan SHAO1Mengxin LI1Fangxia SHEN1,2Tianle ZHU1,2( )
School of Space and Environment, Beihang University, Beijing 102206, China
Beijing Experimental Demonstration Center of Environmental Engineering Education, Beihang University, Beijing 102206, China
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Abstract

Benzene toluene ethylbenzene & xylene (BTEX) in indoor air has significant harm for human health. This paper designs an experiment platform for alternating adsorption-enhanced catalytic treatment of BTEX by plasma. The experiment platform consists of adsorption/catalysis dual-function module, low-temperature plasma generation module, pipeline system and control system. The development of the experiment platform achieves the green goal of continuous control of low concentration BTEX for a long time without O3 secondary pollution. The teaching application of the platform enriches the form and content of experimental courses such as air pollution control engineering and environmental comprehensive experiment, and helps to cultivate students′ innovative thinking and comprehensive ability to solve practical engineering problems.

Keywords

indoor air qualityBTEXalternate adsorptionlow-temperature plasma enhanced catalysisexperimental platform
CLC number: X511 Document code: A Article ID: 1002-4956(2023)06-0155-07

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Experimental Technology and Management
Volume 40 Issue 6,
June 2023
Pages 155-161
DOI: 10.16791/j.cnki.sjg.2023.06.024
Cite this article:
SUN Y, JI S, SHAO M, et al. Comprehensive experimental platform for BTEX purification based on alternating adsorption-low temperature plasma enhanced catalysis. Experimental Technology and Management, 2023, 40(6): 155-161. https://doi.org/10.16791/j.cnki.sjg.2023.06.024

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Received: 04 February 2023
Published: 20 June 2023
© 2023 Experimental Technology and Management. All rights reserved.
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