Abstract
Flow arrangement in a dielectric barrier discharge (DBD) plasma reactor is key to affecting multi-component gas reactions. Herein, a stainless-steel membrane distributor-type DBD reactor was developed to allow the change of gas flow arrangements freely to understand their effect on plasma-assisted CH4/CO2 co-conversion to syngas. Variation of gas flow arrangements in the DBD reactor could regulate the reaction performance. Also, the inclusion of quartz wool in the DBD reactor could enhance the effect of gas flow arrangement compared to the plasma-alone DBD. Specially, the DBD reactor with CO2 feed in the quartz wool packed discharge zone and CH4 distributed via the membrane exhibited good stability over 600 min on stream, with rather stable CO2/CH4 conversions of ~25%/20%, H2/CO selectivity of ~50%/32%, H2/CO molar ratio of 0.9–1.1, and energy efficiency of ~0.20 mmol·kJ−1 based on the conversion of feed gases.
Original language | English |
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Article number | e18059 |
Journal | AIChE Journal |
Early online date | 28 Jan 2023 |
DOIs | |
Publication status | E-pub ahead of print - 28 Jan 2023 |
Keywords
- Non-thermal plasma (NTP);
- Dielectric barrier discharge (DBD)
- Flow arrangement
- Stainless steel membrane
- CH4/CO2