Spatial distribution of coke residues in porous catalyst pellets analyzed by field-cycling relaxometry and parameter imaging

The distribution of coke residues inside porous catalyst pellets was investigated on the molecular as well as the macroscopic scale. The presence of coke on the pore surface affects the relaxation properties of adsorbed liquid species; these were determined by field-cycling relaxometry for different...

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Bibliographic Details
Published in:Magnetic resonance imaging 2005-02, Vol.23 (2), p.383-386
Main Authors: Stapf, Siegfried, Ren, Xiaohong, Talnishnikh, Elena, Blümich, Bernhard
Format: Article
Language:English
Subjects:
Adsorption
Catalysis
Catalyst
Coke
Diffusion
Hydrocarbons - chemistry
Imaging
Magnetic Resonance Spectroscopy
Porosity
Porous media
Relaxation
Water
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Summary:The distribution of coke residues inside porous catalyst pellets was investigated on the molecular as well as the macroscopic scale. The presence of coke on the pore surface affects the relaxation properties of adsorbed liquid species; these were determined by field-cycling relaxometry for different polar and nonpolar liquids in metal-doped and metal-free catalyst carrier materials. The presence of metal in the Al 2O 3 matrix had only a minor influence on the dispersion behavior, while the interaction of the adsorbates with the coke layer leads to considerable changes in the relaxation times at low Larmor frequencies. Lowering the temperature to well below the bulk freezing point of dimethyl sulfoxide resulted in a slightly stronger frequency dependence of T 1. Not only relaxation times but also the diffusion coefficient is affected by the presence of coke residues in the pores. For macroscopically heterogeneous samples, they offer the possibility to generate maps of the local coke concentration by introducing appropriate filters into NMR imaging sequences. High-temperature regeneration of coked catalysts leads to such heterogeneous distributions which is visualized by T 1 parameter imaging.
ISSN:0730-725X
1873-5894
DOI:10.1016/j.mri.2004.11.036