Preparation and characterization of neat and ZnCl2 modified zeolites and alumina for methyl chloride synthesis
2013 (English)In: Applied Catalysis A: General, ISSN 0926-860X, E-ISSN 1873-3875, Vol. 468, 120-134 p.Article in journal (Refereed) Published
A range of zeolite and alumina based catalysts, neat and impregnated with ZnCl2, were screened for gas-phase methyl chloride synthesis from methanol and HCl. The catalysts were characterized with FTIR, TEM, XPS, N-2-physisorption, XRD and EDX to identify the relationship between the catalyst characteristics and their activity and selectivity in methyl chloride synthesis. The work was focused on catalyst performance and stability, acid properties of catalysts and the influence of zinc impregnation. Upon modification with ZnCl2, the number of strong and medium Bronsted acid sites (BAS) decreased, while the number of Lewis acid sites (LAS) increased. The zinc species detected on the catalyst surface is possibly similar to ZnOCl. The presence of ZnCl2 as surface species is not probable, as chlorine is partially removed from the catalyst during calcination at 400 degrees C. However, the binding energy determined by XPS suggests a Zn2+ surface species. Zn2+ containing particles were observed on zeolites by TEM, which show a dependence of the particle size on the support acidity. The activities of the catalysts increased with the number of medium and strong LAS, whereas the methyl chloride selectivity slightly decreased giving dimethyl ether as a by-product. As the increase of acid sites upon modification with the same amounts of ZnCl2 was most pronounced for zeolite catalysts, they exhibited the highest activity. However, the zeolite catalysts showed deactivation with time on stream. Zn/H-ZSM 5 zeolite catalysts exhibited a higher stability in the synthesis of methyl chloride than ZnCl2 modified H-Beta and could be regenerated by burning the coke in air at 400 degrees C. Neat alumina and ZnCl2 modified alumina catalysts were active and selective at 300 degrees C and higher temperatures, but zeolite catalysts might be suitable for methyl chloride synthesis at lower temperatures, i.e. 200 degrees C.
Place, publisher, year, edition, pages
Elsevier, 2013. Vol. 468, 120-134 p.
Methyl chloride, Catalyst screening, Alumina, Zeolites, Zinc chloride
Chemical Sciences Earth and Related Environmental Sciences
IdentifiersURN: urn:nbn:se:umu:diva-85103DOI: 10.1016/j.apcata.2013.08.039ISI: 000327804200017OAI: oai:DiVA.org:umu-85103DiVA: diva2:691650