CoZr nanocomposites in a ceramic-metal AlO x (OH) y /Al matrix with a different Co/Zr ratio and its potential for syngas processing.
Eugene V DokuchitsSerguei F TikhovKonstantin R ValeevTatyana Yu KardashVladimir A RogovAleksei N SalanovIliya V YakovlevOlga B LapinaTatyana P MinyukovaPublished in: Dalton transactions (Cambridge, England : 2003) (2024)
We investigated the possibility of synthesizing Co nanoparticles in CoZr n H/AlO x (OH) y /Al ceramic-metal catalysts and controlling the catalytic properties of these nanoparticles in syngas conversion by changing the Co/Zr ratio. The CoZr nanocomposites were obtained from metal powders by mechanochemical activation in a high-energy mill under an argon atmosphere, followed by treatment with hydrogen at high pressure and room temperature. Ceramic-metal catalysts were prepared by mixing the corresponding CoZr n H powder nanocomposite (30 wt%) with powdered aluminum (70 wt%), hydrothermal treatment of the mixture and subsequent calcination. The materials were characterized with a set of physicochemical methods: powder X-ray diffraction, scanning electron microscopy, 59 Co internal field nuclear magnetic resonance spectroscopy, and temperature programmed reduction. Catalytic studies were performed in a laboratory fixed-bed flow reactor at 2 MPA and 210-270 °C. It is shown that the activity in syngas conversion to C 5+ hydrocarbons and selectivity to methane and C 2 -C 4 hydrocarbons depend on the Co/Zr ratio. Thus, with an increase in the zirconium content in the samples, the interaction of metal cobalt with metal zirconium improves in the process of mechanical activation and subsequent treatment with hydrogen. The destruction of the agglomerates of crystallites of metallic cobalt in the form of β-Co (Co fcc ) occurs as well as their transformation to α-Co (Co hcp ) particles active in the syngas conversion to C 5+ hydrocarbons. This can explain the highest specific yield of C 5+ hydrocarbons on a cermet with the lowest Co/Zr ratio.
Keyphrases
- electron microscopy
- room temperature
- reduced graphene oxide
- pet imaging
- high resolution
- carbon nanotubes
- wastewater treatment
- magnetic resonance imaging
- combination therapy
- magnetic resonance
- risk assessment
- computed tomography
- liquid chromatography
- single molecule
- sewage sludge
- carbon dioxide
- positron emission tomography
- tandem mass spectrometry
- simultaneous determination