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Title
Effect of Phase Composition of Tungsten Carbide on its Catalytic Activity for Toluene Hydrogenation
ORCID
https://orcid.org/0000-0002-1882-3609
Access Type
Open Access Thesis
Document Type
thesis
Degree Program
Chemical Engineering
Degree Type
Master of Science in Chemical Engineering (M.S.Ch.E.)
Year Degree Awarded
2021
Month Degree Awarded
September
Abstract
Commercially important hydrogenation reactions make use of precious noble metal catalysts which are becoming increasingly scarce, and the search for capable alternative catalysts prevails. Transition metal carbides of group IV-VI metals show similar catalytic behavior to platinum and are $103/kg lower in price than the precious metal catalysts. Tungsten carbide, studied in this work, can form in different stoichiometries and phase compositions depending upon synthesis methods. Synthesis of high surface area tungsten carbide with control over its phase composition remains a challenge currently. In this work, the novel isothermal synthesis method of tungsten carbide (WC, W2C) in a CH4/H2 carburization atmosphere with synthesis temperature and presence or absence of a silica support in the catalyst precursor (WO3) as process variables was investigated. The amounts of CO and H2O formed during synthesis corresponded to the amount of oxygen in the WO3 precursor. The catalysts were further characterized by X-ray diffraction to determine phase composition and crystallite size, by scanning electron microscopy to determine morphology, and by CO chemisorption to determine metallic surface area. X-ray diffraction analysis indicated the carbide catalysts to contain W2C, WC, and metallic W phases. The use of a silica-supported precursor favored the formation of a nearly phase pure, high surface area W2C rich catalyst whereas high synthesis temperature and absence of silica precursor favored formation of a low surface area WC rich catalyst. Further, the catalysts were tested for steady state activity at a W/F (weight catalyst/toluene feed rate) of 0.20-0.30 h-1, addition of H2 to a total pressure of 21 bar absolute and 250 °C, and the effect of phase composition and surface area on the activity was studied. This work resulted in the successful synthesis of 4 tungsten carbide catalysts with varying phase compositions and surface areas and correlation of their compositions and surface areas with their corresponding toluene hydrogenation activities.
DOI
https://doi.org/10.7275/24514028.0
First Advisor
Friederike Jentoft
Creative Commons License
This work is licensed under a Creative Commons Attribution 4.0 License.
Recommended Citation
Rane, Aditya, "Effect of Phase Composition of Tungsten Carbide on its Catalytic Activity for Toluene Hydrogenation" (2021). Masters Theses. 1133.
https://doi.org/10.7275/24514028.0
https://scholarworks.umass.edu/masters_theses_2/1133