Water promotion or inhibition effect on isopropanol decomposition catalyzed with a sol-gel MgO-Al2O3 catalyst

J. H. Zhang; X. L. Zhou; J. A. Wang

doi:10.1016/j.molcata.2005.11.055

Water promotion or inhibition effect on isopropanol decomposition catalyzed with a sol-gel MgO-Al₂O₃ catalyst

J. H. Zhang, X. L. Zhou, J. A. Wang

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

16 Scopus citations

Abstract

A magnesia-alumina mixed oxide containing both acid sites (3.9 sites/nm²) and base sites (3.0 sites/nm²) was synthesized via a sol-gel method. Catalytic evaluation of isopropanol decomposition catalyzed with the magnesia-alumina oxide catalyst showed that acetone and propene as major products were formed through dehydrogenation and dehydration pathways. When water stream was present the inlet feedstock, the catalytic activity for isopropanol decomposition was found to be promoted or inhibited that strongly depends upon the reaction temperature. The selectivity to acetone, however, was significantly enhanced after water addition either isopropanol conversion increasing at a reaction temperature below 300 °C or decreasing at a temperature above 300 °C. A new reaction pathway of hydroxyls-assisted dehydrogenation was postulated.

Original language	English
Pages (from-to)	222-226
Number of pages	5
Journal	Journal of Molecular Catalysis A: Chemical
Volume	247
Issue number	1-2
DOIs	https://doi.org/10.1016/j.molcata.2005.11.055
State	Published - 16 Mar 2006
Externally published	Yes

Keywords

Acidity
AlO-MgO
Basicity
Catalyst
Isopropanol
Sol-gel

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10.1016/j.molcata.2005.11.055

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title = "Water promotion or inhibition effect on isopropanol decomposition catalyzed with a sol-gel MgO-Al2O3 catalyst",

abstract = "A magnesia-alumina mixed oxide containing both acid sites (3.9 sites/nm2) and base sites (3.0 sites/nm2) was synthesized via a sol-gel method. Catalytic evaluation of isopropanol decomposition catalyzed with the magnesia-alumina oxide catalyst showed that acetone and propene as major products were formed through dehydrogenation and dehydration pathways. When water stream was present the inlet feedstock, the catalytic activity for isopropanol decomposition was found to be promoted or inhibited that strongly depends upon the reaction temperature. The selectivity to acetone, however, was significantly enhanced after water addition either isopropanol conversion increasing at a reaction temperature below 300 °C or decreasing at a temperature above 300 °C. A new reaction pathway of hydroxyls-assisted dehydrogenation was postulated.",

keywords = "Acidity, AlO-MgO, Basicity, Catalyst, Isopropanol, Sol-gel",

author = "Zhang, {J. H.} and Zhou, {X. L.} and Wang, {J. A.}",

note = "Funding Information: This work is financially supported by an international collaboration funding granted by CONACyT (Mexico)-NSF (China) (no. J200.489/2004) and China 973 Program granted by China Ministry of Science and Technology (no. 2004CB720603). The authors appreciate Dr. J. Navarrete and Dr. Gomez for their technical assistance.",

year = "2006",

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doi = "10.1016/j.molcata.2005.11.055",

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volume = "247",

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journal = "Journal of Molecular Catalysis A: Chemical",

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AU - Zhang, J. H.

AU - Zhou, X. L.

AU - Wang, J. A.

N1 - Funding Information: This work is financially supported by an international collaboration funding granted by CONACyT (Mexico)-NSF (China) (no. J200.489/2004) and China 973 Program granted by China Ministry of Science and Technology (no. 2004CB720603). The authors appreciate Dr. J. Navarrete and Dr. Gomez for their technical assistance.

PY - 2006/3/16

Y1 - 2006/3/16

N2 - A magnesia-alumina mixed oxide containing both acid sites (3.9 sites/nm2) and base sites (3.0 sites/nm2) was synthesized via a sol-gel method. Catalytic evaluation of isopropanol decomposition catalyzed with the magnesia-alumina oxide catalyst showed that acetone and propene as major products were formed through dehydrogenation and dehydration pathways. When water stream was present the inlet feedstock, the catalytic activity for isopropanol decomposition was found to be promoted or inhibited that strongly depends upon the reaction temperature. The selectivity to acetone, however, was significantly enhanced after water addition either isopropanol conversion increasing at a reaction temperature below 300 °C or decreasing at a temperature above 300 °C. A new reaction pathway of hydroxyls-assisted dehydrogenation was postulated.

AB - A magnesia-alumina mixed oxide containing both acid sites (3.9 sites/nm2) and base sites (3.0 sites/nm2) was synthesized via a sol-gel method. Catalytic evaluation of isopropanol decomposition catalyzed with the magnesia-alumina oxide catalyst showed that acetone and propene as major products were formed through dehydrogenation and dehydration pathways. When water stream was present the inlet feedstock, the catalytic activity for isopropanol decomposition was found to be promoted or inhibited that strongly depends upon the reaction temperature. The selectivity to acetone, however, was significantly enhanced after water addition either isopropanol conversion increasing at a reaction temperature below 300 °C or decreasing at a temperature above 300 °C. A new reaction pathway of hydroxyls-assisted dehydrogenation was postulated.

KW - Acidity

KW - AlO-MgO

KW - Basicity

KW - Catalyst

KW - Isopropanol

KW - Sol-gel

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U2 - 10.1016/j.molcata.2005.11.055

DO - 10.1016/j.molcata.2005.11.055

M3 - Artículo

SN - 1381-1169

VL - 247

SP - 222

EP - 226

JO - Journal of Molecular Catalysis A: Chemical

JF - Journal of Molecular Catalysis A: Chemical

IS - 1-2

ER -

Water promotion or inhibition effect on isopropanol decomposition catalyzed with a sol-gel MgO-Al₂O₃ catalyst

Abstract

Keywords

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