Tailoring lattice oxygen triggered NiO/Ca9Co12O28 catalysts for sorption-enhanced renewable hydrogen production
ID:71 View Protection:ATTENDEE Updated Time:2023-03-22 12:12:59 Hits:1794 Oral Presentation

Start Time:2021-08-10 06:30(Asia/Shanghai)

Duration:15min

Session:P 大会报告 » 2分会场一:反应器设计及系统优化

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Abstract
Sorption-enhanced steam reforming of ethanol shows potential of supplying high-quality hydrogen with in situ CO2 capture, but suffers from sorbent deactivation. This paper describes the design of functionalized xNiO/Ca9Co12O28 materials, whose phases can be segregated once triggered by the lattice oxygen consumption via NiO/Ca9Co12O28-O2-→Ni-Co+CaO, thus acting as the catalytic sorbent. Their superiorities are demonstrated in: (i) low-temperature activation via lattice oxygen induction; (ii) recyclability via lattice oxygen replenishment; (iii) high-quality hydrogen actuation via in situ CO2 adsorption. Hydrogen concentration of 95.56 vol% and near complete ethanol conversion can be achieved. Moreover, stability across 50 repeated cycles without obvious reduction in catalytic reforming and CO2 adsorption is demonstrated. In situ XRD studies demonstrate the formation of the Ni-Co alloy and the reorganization of the catalytic sorbent. The adsorption energies of ethanol on the surface of Ni(111), Co(111), and Ni-Co(111) were studied by DFT calculations, reaffirming the higher catalytic activity of Ni-Co alloys.

Keywords
Lattice oxygen, NiO/Ca9Co12O28 catalyst, Sorption-enhanced, Steam reforming of ethanol, Renewable hydrogen production
Speaker
石为之
中南大学

Submission Author
石为之 中南大学
孙志强 中南大学
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Important Date
  • Conference Date

    Apr 06

    2023

    to

    Apr 08

    2023

  • Apr 04 2023

    Contribution Submission Deadline

  • Apr 15 2023

    Registration deadline

  • Apr 30 2023

    Draft paper submission deadline

Sponsored By
昆明理工大学
Organized By
昆明理工大学
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