Insight into gliding arc (GA) plasma reduction of CO2 with H2: GA characteristics and reaction mechanism

As an intermedia between cold and thermal plasmas, warm plasma generated by gliding arc (GA) discharge possesses high conversions and high energy efficiencies for CO2 conversion. However, there is little understanding for the arc characteristics in CO2-based atmosphere and reaction mechanism of CO2...

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Bibliographic Details
Published in:Journal of physics. D, Applied physics Applied physics, 2019-05, Vol.52 (28)
Main Authors: Liu, Jing-Bao, Li, Xiao-Song, Liu, Jing-Lin, Zhu, Ai-Min
Format: Article
Language:English
Subjects:
gliding arc
reaction mechanism
reduction
warm plasma
Online Access:Get full text
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Summary:As an intermedia between cold and thermal plasmas, warm plasma generated by gliding arc (GA) discharge possesses high conversions and high energy efficiencies for CO2 conversion. However, there is little understanding for the arc characteristics in CO2-based atmosphere and reaction mechanism of CO2 in GA plasma from experimental approach. For this purpose, a magnetically driven GA plasma with a constant length of arc is designed to study GA characteristics and reaction mechanism by changing H2/CO2 molar ratio (from pure CO2 to pure H2). In the entire range of H2/CO2 ratio, the arc channel shows a glow-like feature. The plasma parameters are arc temperature of 2200-3600 K, electron density of ~1.6  ×  1014 cm−3 and electron temperature of ~3 eV. From pure CO2 to pure H2, arc diameter decreases from 1.3 to 0.6 mm, whereas rotational frequency increases from 20 to 64 Hz. Based upon the optical emission spectra of CO, OH, H and O species, chemluminescence spectra of CO and O recombination and CO production rate detected online by gas chromatographs, the reaction mechanism at low and high H2/CO2 molar ratios is disclosed.
ISSN:0022-3727
1361-6463
DOI:10.1088/1361-6463/ab1bb1