Collective action of water molecules in zeolite dealumination

When exposed to steam, zeolite catalysts are irreversibly deactivated by loss of acidity and framework degradation caused by dealumination. Steaming typically occurs at elevated temperatures, making it challenging to investigate the mechanism with most approaches. Herein, we follow the dynamics of z...

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Bibliographic Details
Published in:Catalysis science & technology 2019, Vol.9 (14), p.3721-3725
Main Authors: Nielsen, Malte, Hafreager, Anders, Brogaard, Rasmus Yding, De Wispelaere, Kristof, Falsig, Hanne, Beato, Pablo, Van Speybroeck, Veronique, Svelle, Stian
Format: Article
Language:English
Subjects:
Computer simulation
Deactivation
Free energy
High temperature
Loads (forces)
Molecular dynamics
Sampling
Steaming
Unit cell
Water chemistry
Zeolites
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Summary:When exposed to steam, zeolite catalysts are irreversibly deactivated by loss of acidity and framework degradation caused by dealumination. Steaming typically occurs at elevated temperatures, making it challenging to investigate the mechanism with most approaches. Herein, we follow the dynamics of zeolite dealumination in situ , in the presence of a realistic loading of water molecules by means of enhanced sampling molecular dynamics simulations. H-SSZ-13 zeolite is chosen as a target system. Monte Carlo simulations predict a loading of more than 3 water molecules per unit cell at representative steaming conditions (450 °C, 1 bar steam). Our results show that a higher water loading lowers the free energy barrier of dealumination, as water molecules cooperate to facilitate hydrolysis of Al-O bonds. We find free energies of activation for dealumination that agree well with the available experimental measurements. Clearly, the use of enhanced sampling molecular dynamics yields a major step forward in the molecular level understanding of the dealumination; insight which is very hard to derive experimentally. Water molecules cooperate to facilitate Al-O bond hydrolysis during zeolite dealumination at real steaming conditions.
ISSN:2044-4753
2044-4761
DOI:10.1039/c9cy00624a