Hydrodesulfurization of 4,6-dimethyldibenzothiophene over NiMo sulfide catalysts supported on meso-microporous Y zeolite with different mesopore sizes

[Display omitted] •Mesoporous Y zeolites with different mesopore sizes are successfully synthesized.•The morphologies of the active phase are closely related to the mesopore sizes.•The overall HYD activity is linearly correlates to the value of Moe.•The overall DDS activity is linearly correlates to...

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Bibliographic Details
Published in:Applied catalysis. B, Environmental Environmental, 2018-12, Vol.238, p.212-224
Main Authors: Zhou, Wenwu, Wei, Qiang, Zhou, Yasong, Liu, Meifang, Ding, Sijia, Yang, Qi
Format: Article
Language:English
Subjects:
4,6-DMDBT
Active phase
Atomic properties
Catalysis
Catalysts
Chemical synthesis
Crystallization
Crystals
Hydrodesulfurization
Hydrothermal crystal growth
Mesopore size
Metals
Molybdenum disulfide
MY-x zeolites
NMR spectroscopy
Pore size
Porous materials
Pyridines
Sulfidation
Sulfide
Sulfur content
X ray photoelectron spectroscopy
Zeolites
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Summary:[Display omitted] •Mesoporous Y zeolites with different mesopore sizes are successfully synthesized.•The morphologies of the active phase are closely related to the mesopore sizes.•The overall HYD activity is linearly correlates to the value of Moe.•The overall DDS activity is linearly correlates to the value of Moc.•Catalyst NiMo/HMY-6 exhibits the superior HDS performance. MY-x series zeolites with different mesopore diameters were successfully synthesized via a hydrothermal synthesis procedure and the corresponding NiMo/HMY-x series hydrodesulfurization(HDS) catalysts were prepared via incipient co-impregnation method. The synthesized samples were characterized by both wide and small angle XRD, N2 adsorption-desorption isotherms, pyridine adsorbed FTIR (Py-FTIR), 27Al MAS NMR, H2-TPR, HRTEM and XPS. The results show that the synthesized samples exhibit wide opened mesopores of varying sizes with well crystallized pore walls. The introduction of mesopores caused a slight decline in the interaction between active metals and support (MSI) in the corresponding catalysts, generating higher stacking numbers and a shorter slab lengths among MoS2 crystals on the corresponding catalyst and favoring both the dispersion and sulfidation of Mo species, particularly favoring the formation of both active edge sites and highly active corner active sites. The reaction network for 4,6-DMDBT HDS over NiMo/HMY-x series catalysts is proposed, and HDS selectivity is found to be related to mesopore size. More specifically, HYD activity is linearly correlated to the number of Mo atoms located along the edge sites of MoS2 crystals, and DDS activity is linearly correlated with the number of Mo atoms located at the corner sites of MoS2 crystals. Finally, the active corner sites are approximately 10 times more active than active edge sites.
ISSN:0926-3373
1873-3883
DOI:10.1016/j.apcatb.2018.07.042