A1 Refereed original research article in a scientific journal
Influence of the specific surface area and silver crystallite size of mesoporous Ag/SrTiO3 on the selectivity enhancement of ethylene oxide production
Authors: Adhami S, Esfahany MN, Eranen K, Peurla M, Makila E, Murzin DY, Salmi T
Publisher: WILEY
Publishing place: HOBOKEN
Publication year: 2019
Journal: Journal of Chemical Technology and Biotechnology
Journal name in source: JOURNAL OF CHEMICAL TECHNOLOGY AND BIOTECHNOLOGY
Journal acronym: J CHEM TECHNOL BIOT
Volume: 94
Issue: 12
First page : 3839
Last page: 3849
Number of pages: 11
ISSN: 0268-2575
eISSN: 0268-2575
DOI: https://doi.org/10.1002/jctb.6182
Web address : 10.1002/jctb.6182
Abstract
Background Ethylene oxide, which is industrially produced by ethylene epoxidation, is an important versatile chemical intermediate, thus its selectivity enhancement can bring substantial economic profits. In this work, the effects of two important, but still debatable, factors, i.e. catalyst specific surface area and active phase crystallite size, on the catalyst selectivity enhancement were investigated. Surfactant assisted sol-gel method with good control ability on the pores structure was selected to produce mesoporous strontium titanate (SrTiO3) nanocrystals with various specific surface area. The SrTiO3 nanocrystals were used as the supports of silver (Ag) for ethylene epoxidation. Results The Ag/SrTiO3 catalysts with various surface areas were obtained by changing the surfactant-alkoxide ratio and the calcination time. The ethylene oxide selectivity of the prepared catalysts was examined in a laboratory-scale fixed bed reactor. The best performance was observed at the lowest surfactant-alkoxide ratio of 0.2 and calcination time of 4 h, with the surface area of 1.7 m(2)/g and Ag crystallite size of 15 nm. Conclusion The best catalyst selectivity was observed at the lowest surface area and the highest average Ag crystallite size. In this condition, the selectivity of the Ag/SrTiO3 catalyst without any modifier was superior to a commercial Ag/Al2O3 catalyst with 3.7m(2)/g surface area and alkaline earth metal modifiers. (c) 2019 Society of Chemical Industry
Background Ethylene oxide, which is industrially produced by ethylene epoxidation, is an important versatile chemical intermediate, thus its selectivity enhancement can bring substantial economic profits. In this work, the effects of two important, but still debatable, factors, i.e. catalyst specific surface area and active phase crystallite size, on the catalyst selectivity enhancement were investigated. Surfactant assisted sol-gel method with good control ability on the pores structure was selected to produce mesoporous strontium titanate (SrTiO3) nanocrystals with various specific surface area. The SrTiO3 nanocrystals were used as the supports of silver (Ag) for ethylene epoxidation. Results The Ag/SrTiO3 catalysts with various surface areas were obtained by changing the surfactant-alkoxide ratio and the calcination time. The ethylene oxide selectivity of the prepared catalysts was examined in a laboratory-scale fixed bed reactor. The best performance was observed at the lowest surfactant-alkoxide ratio of 0.2 and calcination time of 4 h, with the surface area of 1.7 m(2)/g and Ag crystallite size of 15 nm. Conclusion The best catalyst selectivity was observed at the lowest surface area and the highest average Ag crystallite size. In this condition, the selectivity of the Ag/SrTiO3 catalyst without any modifier was superior to a commercial Ag/Al2O3 catalyst with 3.7m(2)/g surface area and alkaline earth metal modifiers. (c) 2019 Society of Chemical Industry
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