Marie Bermeo Vargas
Doctoral student
In Situ H2 Reduction of Al2O3-Supported Ni- and Mo-Based Catalysts
Author
Summary, in English
Nickel (Ni)-promoted Molybdenum (Mo)-based catalysts are used for hydrotreatment processes in the chemical industry where the catalysts are exposed to high-pressure H2 at elevated temperature. In this environment, the catalyst transforms into the active phase, which involves the reduction of the oxide. Here, we report on the first in situ study on the reduction of alumina supported Ni- and Mo-based catalysts in 1 mbar H2 using ambient-pressure X-ray photoelectron spectroscopy (APXPS). The study confirms that mixing Ni and Mo lowers the reduction temperature of both Ni- and Mo-oxide as compared to the monometallic catalysts and shows that the MoO3 reduction starts at a lower temperature than the reduction of NiO in NiMo/Al2O3 catalysts. Additionally, the reduction of Ni and Mo foil was directly compared to the reduction of the Al2O3-supported catalysts and it was observed that the reduction of the supported catalysts is more gradual than the reduction of the foils, indicating a strong interaction between the Ni/Mo and the alumina support.
Department/s
- Combustion Physics
- Ergonomics and Aerosol Technology
- NanoLund: Center for Nanoscience
- Solid State Physics
- Department of Chemical Engineering
- MAX IV Laboratory
Publishing year
2022-07
Language
English
Publication/Series
Catalysts
Volume
12
Issue
7
Document type
Journal article
Publisher
MDPI AG
Topic
- Inorganic Chemistry
- Chemical Process Engineering
Keywords
- APXPS
- bimetallic catalysts
- catalysis
- in situ
- NiMo-alumina
- reduction
- X-ray-based methods
- XANES
Status
Published
Project
- Combined techniques for studies of catalysis
ISBN/ISSN/Other
- ISSN: 2073-4344