Xylene transformation over USY zeolite: An experimental and kinetic study

A. Iliyas; S. Al-Khattaf

doi:10.1016/j.apcata.2004.04.023

Xylene transformation over USY zeolite: An experimental and kinetic study

A. Iliyas, S. Al-Khattaf^*

^*Corresponding author for this work

King Fahd University of Petroleum & Minerals

Research output: Contribution to journal › Article › peer-review

34 Scopus citations

Abstract

A systematic study on the influence of reaction conditions (temperature, time, and reactant type) on the selectivity of xylene transformation has been carried out over USY zeolite. Initial product selectivity revealed that both isomerization and disproportionation of xylenes are primary reactions. Higher conversion was observed with p-xylene reactant as compared to m- and o-xylene. The "reactant converted" deactivation model was tested with xylenes as model compounds, using effective, mechanistic kinetic models, developed from the transformation of each xylene isomers. The parameters optimized to the experimental data gave a good prediction of the overall reaction kinetics for the xylene transformations. The results provide significant evidence that the "reactant converted" decay model can be adequately utilized to account for catalyst deactivation of the xylene transformation.

Original language	English
Pages (from-to)	225-236
Number of pages	12
Journal	Applied Catalysis A: General
Volume	269
Issue number	1-2
DOIs	https://doi.org/10.1016/j.apcata.2004.04.023
State	Published - 18 Aug 2004

Bibliographical note

Funding Information:
The authors gratefully acknowledge King Fahd University of Petroleum & Minerals for the financial support provided for this work under project 255.

Keywords

Catalyst deactivation model
Fluidized-bed reactor
Kinetic modeling
USY zeolite
Xylene transformation

ASJC Scopus subject areas

Catalysis
Process Chemistry and Technology

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10.1016/j.apcata.2004.04.023

Cite this

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title = "Xylene transformation over USY zeolite: An experimental and kinetic study",

abstract = "A systematic study on the influence of reaction conditions (temperature, time, and reactant type) on the selectivity of xylene transformation has been carried out over USY zeolite. Initial product selectivity revealed that both isomerization and disproportionation of xylenes are primary reactions. Higher conversion was observed with p-xylene reactant as compared to m- and o-xylene. The {"}reactant converted{"} deactivation model was tested with xylenes as model compounds, using effective, mechanistic kinetic models, developed from the transformation of each xylene isomers. The parameters optimized to the experimental data gave a good prediction of the overall reaction kinetics for the xylene transformations. The results provide significant evidence that the {"}reactant converted{"} decay model can be adequately utilized to account for catalyst deactivation of the xylene transformation.",

keywords = "Catalyst deactivation model, Fluidized-bed reactor, Kinetic modeling, USY zeolite, Xylene transformation",

author = "A. Iliyas and S. Al-Khattaf",

note = "Funding Information: The authors gratefully acknowledge King Fahd University of Petroleum \& Minerals for the financial support provided for this work under project 255.",

year = "2004",

month = aug,

day = "18",

doi = "10.1016/j.apcata.2004.04.023",

language = "English",

volume = "269",

pages = "225--236",

journal = "Applied Catalysis A: General",

issn = "0926-860X",

publisher = "Elsevier B.V.",

number = "1-2",

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TY - JOUR

T1 - Xylene transformation over USY zeolite

T2 - An experimental and kinetic study

AU - Iliyas, A.

AU - Al-Khattaf, S.

N1 - Funding Information: The authors gratefully acknowledge King Fahd University of Petroleum & Minerals for the financial support provided for this work under project 255.

PY - 2004/8/18

Y1 - 2004/8/18

N2 - A systematic study on the influence of reaction conditions (temperature, time, and reactant type) on the selectivity of xylene transformation has been carried out over USY zeolite. Initial product selectivity revealed that both isomerization and disproportionation of xylenes are primary reactions. Higher conversion was observed with p-xylene reactant as compared to m- and o-xylene. The "reactant converted" deactivation model was tested with xylenes as model compounds, using effective, mechanistic kinetic models, developed from the transformation of each xylene isomers. The parameters optimized to the experimental data gave a good prediction of the overall reaction kinetics for the xylene transformations. The results provide significant evidence that the "reactant converted" decay model can be adequately utilized to account for catalyst deactivation of the xylene transformation.

AB - A systematic study on the influence of reaction conditions (temperature, time, and reactant type) on the selectivity of xylene transformation has been carried out over USY zeolite. Initial product selectivity revealed that both isomerization and disproportionation of xylenes are primary reactions. Higher conversion was observed with p-xylene reactant as compared to m- and o-xylene. The "reactant converted" deactivation model was tested with xylenes as model compounds, using effective, mechanistic kinetic models, developed from the transformation of each xylene isomers. The parameters optimized to the experimental data gave a good prediction of the overall reaction kinetics for the xylene transformations. The results provide significant evidence that the "reactant converted" decay model can be adequately utilized to account for catalyst deactivation of the xylene transformation.

KW - Catalyst deactivation model

KW - Fluidized-bed reactor

KW - Kinetic modeling

KW - USY zeolite

KW - Xylene transformation

UR - https://www.scopus.com/pages/publications/2942558913

U2 - 10.1016/j.apcata.2004.04.023

DO - 10.1016/j.apcata.2004.04.023

M3 - Article

AN - SCOPUS:2942558913

SN - 0926-860X

VL - 269

SP - 225

EP - 236

JO - Applied Catalysis A: General

JF - Applied Catalysis A: General

IS - 1-2

ER -

Xylene transformation over USY zeolite: An experimental and kinetic study

Abstract

Bibliographical note

Keywords

ASJC Scopus subject areas

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