Effect of Pd/TiO sub(2)-Al sub(2)O sub(3) Catalyst Support on Naphthalene Hydrogenation in the Presence of CO

Hydrogenation of naphthalene in the presence of CO was examined as a step in the organic hydride method for utilizing low grade hydrogen. Development of CO-tolerant hydrogenation catalysts will allow this process to achieve purification and storage of hydrogen simultaneously, and hydrogen with high...

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Veröffentlicht in:	Journal of the Japan Petroleum Institute 2010-01, Vol.53 (4), p.239-245239
Hauptverfasser:	Ino, Yosuke, Ezuka, Koji, Ohshima, Masa-Aki, Kurokawa, Hideki, Miura, Hiroshi
Format:	Artikel
Sprache:	eng
Schlagworte:	Carbon monoxide Catalysts Hydrogen storage Hydrogenation Naphthalene Palladium Titanium dioxide Unsaturated
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container_title	Journal of the Japan Petroleum Institute
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creator	Ino, Yosuke Ezuka, Koji Ohshima, Masa-Aki Kurokawa, Hideki Miura, Hiroshi
description	Hydrogenation of naphthalene in the presence of CO was examined as a step in the organic hydride method for utilizing low grade hydrogen. Development of CO-tolerant hydrogenation catalysts will allow this process to achieve purification and storage of hydrogen simultaneously, and hydrogen with high purity can be obtained by the dehydrogenation step. Pd catalysts supported on TiO sub(2), Al sub(2)O sub(3) and TiO sub(2)-Al sub(2)O sub(3) mixed oxides prepared by the sol-gel method were evaluated. Using pure hydrogen as the reactant, Pd/TiO sub(2)-Al sub(2)O sub(3) catalysts containing 50-80 wt% of TiO sub(2) had high activity. Using hydrogen containing 2% CO, Pd/TiO sub(2)-Al sub(2)O sub(3) catalyst containing 80 wt% of TiO sub(2) had the highest activity. The synergetic effect of the mixed oxide support was more clearly observed in the presence of CO impurity than with pure hydrogen. CO probe FT-IR spectra contained 5 peaks, corresponding to the surface geometry. Adsorbed CO on coordinatively unsaturated sites, such as corner and edge sites, increased with higher TiO sub(2) content. These sites released adsorbed CO at lower temperatures, indicating weaker adsorption. These coordinatively unsaturated sites are active for hydrogenation in the presence of CO.
doi_str_mv	10.1627/jpi.53.239
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Development of CO-tolerant hydrogenation catalysts will allow this process to achieve purification and storage of hydrogen simultaneously, and hydrogen with high purity can be obtained by the dehydrogenation step. Pd catalysts supported on TiO sub(2), Al sub(2)O sub(3) and TiO sub(2)-Al sub(2)O sub(3) mixed oxides prepared by the sol-gel method were evaluated. Using pure hydrogen as the reactant, Pd/TiO sub(2)-Al sub(2)O sub(3) catalysts containing 50-80 wt% of TiO sub(2) had high activity. Using hydrogen containing 2% CO, Pd/TiO sub(2)-Al sub(2)O sub(3) catalyst containing 80 wt% of TiO sub(2) had the highest activity. The synergetic effect of the mixed oxide support was more clearly observed in the presence of CO impurity than with pure hydrogen. CO probe FT-IR spectra contained 5 peaks, corresponding to the surface geometry. Adsorbed CO on coordinatively unsaturated sites, such as corner and edge sites, increased with higher TiO sub(2) content. 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source	J-STAGE Free; EZB-FREE-00999 freely available EZB journals; Free Full-Text Journals in Chemistry
subjects	Carbon monoxide Catalysts Hydrogen storage Hydrogenation Naphthalene Palladium Titanium dioxide Unsaturated
title	Effect of Pd/TiO sub(2)-Al sub(2)O sub(3) Catalyst Support on Naphthalene Hydrogenation in the Presence of CO
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