Warm-plasma catalytic reduction of CO2 with CH4

[Display omitted] •Excellent reforming performance is achieved in plasma catalytic reduction of CO2 with CH4.•H2/CO ratio of 1 is achieved in plasma catalytic reduction of CO2 with CH4.•Reduction pathways of CO2 with CH4 in plasma and plasma catalytic reforming are identified. Toward developing an e...

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Published inCatalysis today Vol. 330; pp. 54 - 60
Main Authors Liu, Jing-Lin, Li, Zhi, Liu, Jian-Hao, Li, Kai, Lian, Hao-Yu, Li, Xiao-Song, Zhu, Xiaobing, Zhu, Ai-Min
Format Journal Article
LanguageEnglish
Published Elsevier B.V 15.06.2019
Subjects
CO2 reduction
Dry reforming
Plasma catalysis
Reverse water gas shift
Warm plasma
Warm plasma
Dry reforming
CO2 reduction
Plasma catalysis
Reverse water gas shift
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Abstract [Display omitted] •Excellent reforming performance is achieved in plasma catalytic reduction of CO2 with CH4.•H2/CO ratio of 1 is achieved in plasma catalytic reduction of CO2 with CH4.•Reduction pathways of CO2 with CH4 in plasma and plasma catalytic reforming are identified. Toward developing an efficient plasma-based technique for CO2 reduction with CH4, warm-plasma catalytic (WPC) reduction of CO2 with CH4 in a reactor using gliding arc discharge and Ni/CeO2/Al2O3 catalyst is reported. In the warm plasma (WP) case, besides dry reforming reaction, reverse water gas shift (RWGS) reaction also comparably contributes for CO2 reduction. Although the contribution of dry reforming reaction is significantly enhanced by the increase of CH4/CO2 ratio, it accounts for only 60% due to the limitation of maximum CH4/CO2 ratio by the serious carbon deposition at CH4/CO2 >1/2. In addition, the low CH4/CO2 ratio also results in the low CO2 conversion, H2/CO ratio and H2 selectivity. In the WPC case, extra CH4 was fed after plasma to increase the CH4/CO2 ratio to 1, dry reforming reaction becomes the major contributor of CO2 reduction. Under the conditions of specific energy input of 86 kJ/mol, total flow rate of 2.67 SLM, catalyst-bed temperature of 850 °C and gas hourly space velocity of 3200 h−1, CO2 conversion of 91% and CH4 conversion of 94% with H2/CO = 1 and nearly 100% H2 selectivity are achieved with a CO2 energy cost of 598 kJ/mol and an energy efficiency of 72%.
AbstractList [Display omitted] •Excellent reforming performance is achieved in plasma catalytic reduction of CO2 with CH4.•H2/CO ratio of 1 is achieved in plasma catalytic reduction of CO2 with CH4.•Reduction pathways of CO2 with CH4 in plasma and plasma catalytic reforming are identified. Toward developing an efficient plasma-based technique for CO2 reduction with CH4, warm-plasma catalytic (WPC) reduction of CO2 with CH4 in a reactor using gliding arc discharge and Ni/CeO2/Al2O3 catalyst is reported. In the warm plasma (WP) case, besides dry reforming reaction, reverse water gas shift (RWGS) reaction also comparably contributes for CO2 reduction. Although the contribution of dry reforming reaction is significantly enhanced by the increase of CH4/CO2 ratio, it accounts for only 60% due to the limitation of maximum CH4/CO2 ratio by the serious carbon deposition at CH4/CO2 >1/2. In addition, the low CH4/CO2 ratio also results in the low CO2 conversion, H2/CO ratio and H2 selectivity. In the WPC case, extra CH4 was fed after plasma to increase the CH4/CO2 ratio to 1, dry reforming reaction becomes the major contributor of CO2 reduction. Under the conditions of specific energy input of 86 kJ/mol, total flow rate of 2.67 SLM, catalyst-bed temperature of 850 °C and gas hourly space velocity of 3200 h−1, CO2 conversion of 91% and CH4 conversion of 94% with H2/CO = 1 and nearly 100% H2 selectivity are achieved with a CO2 energy cost of 598 kJ/mol and an energy efficiency of 72%.
Author Li, Kai
Liu, Jian-Hao
Li, Zhi
Liu, Jing-Lin
Lian, Hao-Yu
Li, Xiao-Song
Zhu, Xiaobing
Zhu, Ai-Min
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Plasma catalysis
Reverse water gas shift
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Snippet [Display omitted] •Excellent reforming performance is achieved in plasma catalytic reduction of CO2 with CH4.•H2/CO ratio of 1 is achieved in plasma catalytic...
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SubjectTerms CO2 reduction
Dry reforming
Plasma catalysis
Reverse water gas shift
Warm plasma
Title Warm-plasma catalytic reduction of CO2 with CH4
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