期刊
APPLIED CATALYSIS B-ENVIRONMENTAL
卷 304, 期 -, 页码 -出版社
ELSEVIER
DOI: 10.1016/j.apcatb.2021.121015
关键词
Doped ceria; Supported Ni catalysts; DRM; Coking; Lattice oxygen; Transient isotopic techniques
资金
- Abu Dhabi Department of Education and Knowledge (ADEK) through the Abu Dhabi Award Research Excellence (AARE) [AARE2017-258]
- Khalifa University [RC2-2018-024]
- Cyprus Research and Innovation Foundation [INFRASTRUCTURES/1216/0070]
- Research Committee of the University of Cyprus
This study investigates the effects of La3+ and Sm3+ heteroatoms in a catalytic system on carbon deposition and removal in the dry reforming of methane. The results show that Ni nanoparticles supported on La3+-doped ceria have higher initial rates of carbon oxidation and lower rates of carbon accumulation compared to Ni nanoparticles supported on Sm3+-doped ceria.
The different effects of the presence of La3+ and Sm3+ heteroatoms in the 5 wt% Ni/45Ce-45(Sm or La)-10Cu-O catalytic system on the carbon deposition and removal reaction paths in the dry reforming of methane (DRM) at 750 ? were investigated using transient kinetic and isotopic experiments. The relative initial rates of carbon oxidation by lattice oxygen of support and that by oxygen derived from CO2 dissociation under DRM reaction conditions were quantified. Ni nanoparticles (23-nm) supported on La3+-doped ceria exhibited at least 3 times higher initial rates of carbon oxidation to CO by lattice oxygen, and ~ 13 times lower rates of carbon accumulation than Ni (18-nm) supported on Sm3+-doped ceria. The concentration and mobility of labile surface oxygen at the Ni-support interface region seems to correlate with carbon accumulation. Ni/Ce-La(or Sm)-10Cu-O formed NiCu alloy nanoparticles, partly responsible for lowering carbon deposition and increasing carbon oxidation rates to CO.
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