X-ray Fluorescence Tomography of Aged Fluid-Catalytic-Cracking Catalyst Particles Reveals Insight into Metal Deposition Processes
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2015-11-16
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Abstract
Microprobe X-ray fluorescence tomography was used to investigate metal poison deposition in individual, intact and industrially deactivated fluid catalytic cracking (FCC) particles at two differing catalytic life-stages. 3D multi-element imaging, at submicron resolution was achieved by using a large-array Maia fluorescence detector. Our results show that Fe, Ni and Ca have significant concentration at the exterior of the FCC catalyst particle and are highly co-localized. As concentrations increase as a function of catalytic life-stage, the deposition profiles of Fe, Ni, and Ca do not change significantly. V has been shown to penetrate deeper into the particle with increasing catalytic age. Although it has been previously suggested that V is responsible for damaging the zeolite components of FCC particles, no spatial correlation was found for V and La, which was used as a marker for the embedded zeolite domains. This suggests that although V is known to be detrimental to zeolites in FCC particles, a preferential interaction does not exist between the two.
Keywords
cracking, X-ray fluorescence, lanthanum, vanadium, zeolites, FCC CATALYST, Y-ZEOLITE, COKE FORMATION, VANADIUM, DEACTIVATION, NICKEL, MECHANISM, SINGLE, TIME, IRON
Citation
Kalirai, S, Boesenberg, U, Falkenberg, G, Meirer, F & Weckhuysen, B M 2015, 'X-ray Fluorescence Tomography of Aged Fluid-Catalytic-Cracking Catalyst Particles Reveals Insight into Metal Deposition Processes', ChemCatChem, vol. 7, no. 22, pp. 3674-3682. https://doi.org/10.1002/cctc.201500710