Increased Sulfur Tolerance of Pt/KL Catalysts Prepared by Vapor-Phase Impregnation and Containing a Tm Promoter

Increased Sulfur Tolerance of Pt/KL Catalysts Prepared by Vapor-Phase Impregnation and Containing a Tm Promoter

Tm-containing Pt/KL catalysts were prepared by a variety of techniques, including incipient wetness impregnation (IWI), ion exchange (IE), and vapor-phase impregnation (VPI) methods. The Pt morphology resulting from the addition of Tm and Pt sequentially, using the VPI method, was found to yield the...

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Bibliographic Details
Published in:Journal of catalysis Vol. 191; no. 1; pp. 116 - 127
Main Authors: Jacobs, Gary, Ghadiali, Firoz, Pisanu, Adriana, Padro, Cristina L., Borgna, Armando, Alvarez, Walter E., Resasco, Daniel E.
Format: Journal Article
Language:English
Published: Amsterdam Elsevier Inc 01-04-2000
Elsevier
Subjects:
02 PETROLEUM
AROMATIZATION
Catalysis
CATALYSTS
Catalysts: preparations and properties
CATALYTIC EFFECTS
CHEMICAL PREPARATION
chemical vapor deposition
Chemistry
DEACTIVATION
DRIFTS
Exact sciences and technology
EXAFS
General and physical chemistry
HEXANE
lanthanide promoters
n-hexane
PLATINUM
Pt/KL
SULFUR CONTENT
Theory of reactions, general kinetics. Catalysis. Nomenclature, chemical documentation, computer chemistry
THULIUM
vapor-phase impregnation
Pt/KL
aromatization
vapor-phase impregnation
n-hexane
DRIFTS
lanthanide promoters
chemical vapor deposition
EXAFS
Lanthanide
Catalyst poisoning
Catalytic reaction
Hydrocarbon
Transition metal
Zeolite
Chemical vapor deposition
Supported catalyst
EXAFS spectrometry
Molecular sieve
Promoter
Thulium
Heterogeneous catalysis
Impregnation
Aromatization
Platinum
Preparation
Alkane
Hexane
Ion exchange
Sulfur
Modified material
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Summary:Tm-containing Pt/KL catalysts were prepared by a variety of techniques, including incipient wetness impregnation (IWI), ion exchange (IE), and vapor-phase impregnation (VPI) methods. The Pt morphology resulting from the addition of Tm and Pt sequentially, using the VPI method, was found to yield the greatest enhancement to the aromatization performance of the Pt/KL catalysts studied. The presence of Tm in the sequential VPI Pt/Tm/KL catalyst resulted reproducibly in a catalyst with higher Pt dispersion than that in an unpromoted VPI catalyst, as determined by EXAFS analysis and DRIFTS of adsorbed CO. VPI catalysts give more finely dispersed Pt clusters than either conventional IWI or IE methods. From TPO of poisoned catalysts, Tm was also found to act as a getter for sulfur, so it delays the poisoning of Pt under sulfur-containing feeds, as further evidenced by reaction studies. In addition, the initial activity of the Tm-promoted VPI catalysts was found to be higher than that of the unpromoted Pt/KL VPI catalysts, suggesting that Tm may directly modify Pt or even participate in accelerating the aromatization reaction. The amount and method of incorporation of Tm were found to be critical to the morphology of the Pt clusters and, subsequently, to catalyst performance under sulfur-free and sulfur-poisoned reaction conditions. While the sequential vapor-phase impregnation method with a small amount of Tm (0.15%) yielded a catalyst with improved catalytic properties, some of the other methods such as coimpregnation of Pt and Tm were found to hinder the dispersion of Pt. This may cause the blocking of the L-zeolite channels, as demonstrated by DRIFTS of adsorbed CO, and a higher deactivation rate in the reaction.
ISSN:0021-9517
1090-2694
DOI:10.1006/jcat.1999.2779