Frontiers in Chemical Engineering (Nov 2022)

Non-thermal plasma activated CO2 hydrogenation over K- and La- promoted layered-double hydroxide supported Ni catalysts

  • Christina Charalambous,
  • Shanshan Xu,
  • Shengzhe Ding,
  • Sarayute Chansai,
  • Edidiong Asuquo,
  • Antonio Torres Lopez,
  • Antonio Torres Lopez,
  • Christopher M. A. Parlett,
  • Christopher M. A. Parlett,
  • Christopher M. A. Parlett,
  • Jamie D. Gilmour,
  • Arthur Garforth,
  • Christopher Hardacre

DOI
https://doi.org/10.3389/fceng.2022.1027167
Journal volume & issue
Vol. 4

Abstract

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The catalytic conversion of CO2 to CH4 and CO over nickel particles supported on layered-double hydroxide (MgAl) with different metal promoters was investigated under non-thermal plasma (NTP) conditions. It has been shown that lanthanum-promoted Ni catalysts significantly enhanced the CO2 conversion in comparison to the 10Ni/MgAl catalyst (33.4% vs. 89.3%). In comparison, for the potassium-promoted catalysts, CO2 conversion is similar to that of 10Ni/MgAl but the CO selectivity increased significantly (35.7% vs. 62.0%). The introduction of La and K to Ni catalysts increased the Ni dispersion and improved the reducibility of Ni species, thus affecting CO2 conversion and product selectivity. In situ DRIFTS showed similar reaction pathways for La- and K- promoted catalysts with Ni catalysts. However, the La and K promoters significantly improved the formation of formate species on the Ni surface, facilitating CO2 conversion to useful products.

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