Effect of copper on calcium-modified alumina-supported cobalt catalysts towards Fischer–Tropsch synthesis

The present study reports the possibility of using copper as a low-cost reduction promoter in cobalt-based Fischer–Tropsch (FT) catalysts. Adsorption behaviour of CO and H2 on alumina-supported Co and Co–Cu catalysts has been examined. Amount of CO and H2 desorption and temperature of desorption are...

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Veröffentlicht in:	Current science (Bangalore) 2014-06, Vol.106 (11), p.1538-1547
Hauptverfasser:	Maity, Sudip, James, Olusola O., Chowdhury, Biswajit, Auroux, Aline
Format:	Artikel
Sprache:	eng
Schlagworte:	Adsorption Carbon Carbon monoxide Catalysis Catalysts Chemical Sciences Cobalt Copper Crystallites Desorption Environment and Society Environmental Sciences Hydrocarbons Nitrates Surface areas Synthesis
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container_title	Current science (Bangalore)
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creator	Maity, Sudip James, Olusola O. Chowdhury, Biswajit Auroux, Aline
description	The present study reports the possibility of using copper as a low-cost reduction promoter in cobalt-based Fischer–Tropsch (FT) catalysts. Adsorption behaviour of CO and H2 on alumina-supported Co and Co–Cu catalysts has been examined. Amount of CO and H2 desorption and temperature of desorption are used to gain insights about the performance of the catalysts. Presence of Cu alters CO and H2 adsorption on Co–alumina catalyst. Modification of alumina with Ca enhances Co dispersion and the amount of CO adsorbed. However, increase in the amount of CO adsorbed does not translate into increase in CO conversion. The Co–Cu-based catalysts display higher amount of H2 adsorbed and higher CO desorption temperature. The latter is at the expense of the amount of CO adsorbed for low CO conversion resulting in lower activity for FT synthesis. The catalysts display high selectivity towards oxygenates. The high CO adsorption strength on Co–Cu-based catalysts is rationalized in terms of synergistic interaction of CO with cobalt particles through carbon atom and copper particles through oxygen atom.
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Adsorption behaviour of CO and H2 on alumina-supported Co and Co–Cu catalysts has been examined. Amount of CO and H2 desorption and temperature of desorption are used to gain insights about the performance of the catalysts. Presence of Cu alters CO and H2 adsorption on Co–alumina catalyst. Modification of alumina with Ca enhances Co dispersion and the amount of CO adsorbed. However, increase in the amount of CO adsorbed does not translate into increase in CO conversion. The Co–Cu-based catalysts display higher amount of H2 adsorbed and higher CO desorption temperature. The latter is at the expense of the amount of CO adsorbed for low CO conversion resulting in lower activity for FT synthesis. The catalysts display high selectivity towards oxygenates. 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Adsorption behaviour of CO and H2 on alumina-supported Co and Co–Cu catalysts has been examined. Amount of CO and H2 desorption and temperature of desorption are used to gain insights about the performance of the catalysts. Presence of Cu alters CO and H2 adsorption on Co–alumina catalyst. Modification of alumina with Ca enhances Co dispersion and the amount of CO adsorbed. However, increase in the amount of CO adsorbed does not translate into increase in CO conversion. The Co–Cu-based catalysts display higher amount of H2 adsorbed and higher CO desorption temperature. The latter is at the expense of the amount of CO adsorbed for low CO conversion resulting in lower activity for FT synthesis. The catalysts display high selectivity towards oxygenates. 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Adsorption behaviour of CO and H2 on alumina-supported Co and Co–Cu catalysts has been examined. Amount of CO and H2 desorption and temperature of desorption are used to gain insights about the performance of the catalysts. Presence of Cu alters CO and H2 adsorption on Co–alumina catalyst. Modification of alumina with Ca enhances Co dispersion and the amount of CO adsorbed. However, increase in the amount of CO adsorbed does not translate into increase in CO conversion. The Co–Cu-based catalysts display higher amount of H2 adsorbed and higher CO desorption temperature. The latter is at the expense of the amount of CO adsorbed for low CO conversion resulting in lower activity for FT synthesis. The catalysts display high selectivity towards oxygenates. The high CO adsorption strength on Co–Cu-based catalysts is rationalized in terms of synergistic interaction of CO with cobalt particles through carbon atom and copper particles through oxygen atom.</abstract><pub>Current Science Association</pub><tpages>10</tpages></addata></record>
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subjects	Adsorption Carbon Carbon monoxide Catalysis Catalysts Chemical Sciences Cobalt Copper Crystallites Desorption Environment and Society Environmental Sciences Hydrocarbons Nitrates Surface areas Synthesis
title	Effect of copper on calcium-modified alumina-supported cobalt catalysts towards Fischer–Tropsch synthesis
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