4.6 Article

MFI Type Zeolite Aggregates with Nanosized Particles via a Combination of Spray Drying and Steam-Assisted Crystallization (SAC) Techniques

Journal

CATALYSTS
Volume 13, Issue 3, Pages -

Publisher

MDPI
DOI: 10.3390/catal13030536

Keywords

spray drying; steam-assisted crystallization; zeolites

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The combination of spray drying and steam-assisted crystallization (SAC) is effective in addressing the limitations of low yields, separation problems, and high amounts of waste in hydrothermal synthesis of nanosized zeolites. Through spray drying and SAC conversion, the amorphous material can be transformed into zeolite particles without the need for additional template at temperatures between 300 and 400 degrees C. Kinetic studies reveal that it takes 4 to 8 days to achieve 100% crystalline product formation. This work demonstrates the usefulness of spray drying and SAC as tools in supplementing the hydrothermal synthesis of nanosized zeolites.
Hydrothermal synthesis is the state-of-the-art technique for the preparation of zeolites and related porous solids. However, when it comes to the preparation of nanosized zeolites, this technique is limited by low yields, separation problems and high amounts of waste. In this work, we utilized the strengths of a combination of spray drying and steam-assisted crystallization (SAC), also known as dry gel conversion, to reduce these problems. At spray drying temperatures between 300 and 400 degrees C, it was possible to convert all the amorphous material via SAC into zeolite particles without extra addition of template. Kinetic studies of SAC revealed that about 4 to 8 days are needed to achieve the formation of a 100% crystalline product. The newly formed crystalline phase was crystallized on the surface of the nanosized zeolites and led to a slight increase in the primary particle size while the macroscopic morphology of the spray-dried aggregates was preserved. This work demonstrates that the combination of spray drying and SAC are useful tools in supplementing the hydrothermal synthesis of nanosized zeolites.

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