Tracking Structural Deactivation of H-Ferrierite Zeolite Catalyst During MTH with XRD

Tracking Structural Deactivation of H-Ferrierite Zeolite Catalyst During MTH with XRD

We used the methanol-to-hydrocarbon (MTH) reaction as a shape-selective model reaction to investigate coke formation in zeolite H-Ferrierite. Despite being a 2D topology in terms of channel propagation, the FER framework displays a lattice expansion in all three dimensions of space upon deactivation...

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Veröffentlicht in:Topics in catalysis 2023-10, Vol.66 (17-18), p.1418-1426
Hauptverfasser: Capel Berdiell, Izar, Braghin, Giorgio Bruno, Cordero-Lanzac, Tomás, Beato, Pablo, Lundegaard, Lars F., Wragg, David, Bordiga, Silvia, Svelle, Stian
Format: Artikel
Sprache:eng
Schlagworte:
Catalysis
Catalysts
Characterization and Evaluation of Materials
Chemistry
Chemistry and Materials Science
Coke
Deactivation
Industrial Chemistry/Chemical Engineering
Original Paper
Pharmacy
Physical Chemistry
Thermogravimetric analysis
Topology
Unit cell
X-ray diffraction
Zeolites
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Zusammenfassung:We used the methanol-to-hydrocarbon (MTH) reaction as a shape-selective model reaction to investigate coke formation in zeolite H-Ferrierite. Despite being a 2D topology in terms of channel propagation, the FER framework displays a lattice expansion in all three dimensions of space upon deactivation. Therefore, the volume of the unit cell is an excellent X-Ray diffraction (XRD) descriptor for the catalyst deactivation. A model with dummy atoms added, also proved to be an accurate approach to measure the amount of internal coke and/or water inside the pore network correlated with thermogravimetric analysis results. While the catalyst deactivation of the H-Ferrerite during the MTH was fast, a comparably long induction period was observed. We were able to track such fast deactivation with the aforementioned descriptors by means of an operando XRD study by a standard laboratory diffractometer.
ISSN:1022-5528
1572-9028
DOI:10.1007/s11244-023-01780-0