Gas phase catalytic dehydrochlorination and hydrodechlorination of aliphatic and aromatic systems

The gas phase dechlorination of cyclohexyl chloride and chlorobenzene, over the temperature range 423 K≤ T≤573 K, promoted using a silica supported nickel catalyst in the presence of hydrogen has been studied. Chlorine removal from the chloroalkane is shown to occur by dehydrochlorination via an E1...

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Published inJournal of molecular catalysis. A, Chemical Vol. 142; no. 2; pp. 187 - 199
Main Authors Tavoularis, George, Keane, Mark A
Format Journal Article
LanguageEnglish
Published Amsterdam Elsevier B.V 10.06.1999
Elsevier
Subjects
Bromine removal
Catalysis
Catalyst deactivation
Catalytic reactions
Chemistry
Chlorine removal
Dehydrohalogenation
Exact sciences and technology
General and physical chemistry
Hydrodehalogenation
Nickel/silica
Theory of reactions, general kinetics. Catalysis. Nomenclature, chemical documentation, computer chemistry
Chlorine removal
Dehydrohalogenation
Nickel/silica
Hydrodehalogenation
Bromine removal
Catalyst deactivation
Catalytic reaction
Aliphatic compound
Transition metal
Experimental study
Hydrogenation
Supported catalyst
Heterogeneous catalysis
Dechlorination
Dehydrochlorination
Silicon Oxides
Aromatic compound
Nickel
Kinetic parameter
Gas phase
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Abstract The gas phase dechlorination of cyclohexyl chloride and chlorobenzene, over the temperature range 423 K≤ T≤573 K, promoted using a silica supported nickel catalyst in the presence of hydrogen has been studied. Chlorine removal from the chloroalkane is shown to occur by dehydrochlorination via an E1 type elimination mechanism to yield cyclohexene and HCl as the products. The reaction was found to exhibit zero order behaviour with respect to hydrogen partial pressure, a temperature dependent reaction order (varying from 0.4 to 0.7) with respect to the chloroalkane and an apparent activation energy equal to 115 kJ mol −1. Turnover of the cyclohexyl chloride reactant was subject to a short term loss of catalytic activity due to a surface poisoning by the HCl that was produced where the presence of hydrogen served to displace the inorganic halide and extend the productive lifetime of the catalyst. A steady state conversion of chlorobenzene was however readily achieved where dechlorination in hydrogen occurs via an electrophilic hydrodechlorination mechanism. Bromine removal from cyclohexyl bromide and bromobenzene is also considered for comparative purposes. The ease of halogen removal and process selectivity are discussed in terms of thermodynamic limitations and reactant/catalyst interactions.
AbstractList The gas phase dechlorination of cyclohexyl chloride and chlorobenzene, over the temperature range 423 K≤ T≤573 K, promoted using a silica supported nickel catalyst in the presence of hydrogen has been studied. Chlorine removal from the chloroalkane is shown to occur by dehydrochlorination via an E1 type elimination mechanism to yield cyclohexene and HCl as the products. The reaction was found to exhibit zero order behaviour with respect to hydrogen partial pressure, a temperature dependent reaction order (varying from 0.4 to 0.7) with respect to the chloroalkane and an apparent activation energy equal to 115 kJ mol −1. Turnover of the cyclohexyl chloride reactant was subject to a short term loss of catalytic activity due to a surface poisoning by the HCl that was produced where the presence of hydrogen served to displace the inorganic halide and extend the productive lifetime of the catalyst. A steady state conversion of chlorobenzene was however readily achieved where dechlorination in hydrogen occurs via an electrophilic hydrodechlorination mechanism. Bromine removal from cyclohexyl bromide and bromobenzene is also considered for comparative purposes. The ease of halogen removal and process selectivity are discussed in terms of thermodynamic limitations and reactant/catalyst interactions.
Author Tavoularis, George
Keane, Mark A
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Issue 2
Keywords Chlorine removal
Dehydrohalogenation
Nickel/silica
Hydrodehalogenation
Bromine removal
Catalyst deactivation
Catalytic reaction
Aliphatic compound
Transition metal
Experimental study
Hydrogenation
Supported catalyst
Heterogeneous catalysis
Dechlorination
Dehydrochlorination
Silicon Oxides
Aromatic compound
Nickel
Kinetic parameter
Gas phase
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Snippet The gas phase dechlorination of cyclohexyl chloride and chlorobenzene, over the temperature range 423 K≤ T≤573 K, promoted using a silica supported nickel...
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SubjectTerms Bromine removal
Catalysis
Catalyst deactivation
Catalytic reactions
Chemistry
Chlorine removal
Dehydrohalogenation
Exact sciences and technology
General and physical chemistry
Hydrodehalogenation
Nickel/silica
Theory of reactions, general kinetics. Catalysis. Nomenclature, chemical documentation, computer chemistry
Title Gas phase catalytic dehydrochlorination and hydrodechlorination of aliphatic and aromatic systems
URI https://dx.doi.org/10.1016/S1381-1169(98)00272-6
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