Catalytic performance of zinc-supported copper and nickel catalysts in the glycerol hydrogenolysis

Chimentao, RJ; Ruiz, D; Miranda, BC; Gispert-Guirado, F; Medina, F; Llorca, J; Santos, JBO

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Catalytic performance of zinc-supported copper and nickel catalysts in the glycerol hydrogenolysis - imarina:5813224

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https://hdl.handle.net/20.500.11797/imarina5813224

URV's Author/s:	Gispert Guirado, Francesc / GUIRADO PAGÉS, FRANCISCO / Medina Cabello, Francisco
Author, as appears in the article.:	Chimentao, RJ; Ruiz, D; Miranda, BC; Gispert-Guirado, F; Medina, F; Llorca, J; Santos, JBO
Author's mail:	francesc.medina@urv.cat
Author identifier:	0000-0002-3111-1542
Journal publication year:	2020
Publication Type:	Journal Publications
APA:	Chimentao, RJ; Ruiz, D; Miranda, BC; Gispert-Guirado, F; Medina, F; Llorca, J; Santos, JBO (2020). Catalytic performance of zinc-supported copper and nickel catalysts in the glycerol hydrogenolysis. Journal Of Energy Chemistry, 42(), 185-194. DOI: 10.1016/j.jechem.2019.07.003
Paper original source:	Journal Of Energy Chemistry. 42 185-194
Abstract:	© 2019 Science Press and Dalian Institute of Chemical Physics, Chinese Academy of Sciences Gas-phase catalytic conversion of glycerol to value added chemicals was investigated over zinc-supported copper and nickel catalysts. The addition of aluminum in the support was also investigated in glycerol conversion and the results indicate an increase in the acidity and adsorption capacity for both copper and nickel catalysts. HRTEM and XRD analysis revealed NiZn alloy formation in the Ni/ZnO catalyst. The XRD patterns of the prepared ZnAl mixed oxide catalysts show the presence of Gahanite phase (ZnAl2O4). In addition, H2 chemisorption and TPR results suggest a strong metal-support interactions (SMSI) effect between Ni and ZnO particles. Bare supports ZnO and ZnAl (Zn/Al = 0.5) were investigated in the glycerol conversion and they did not present activity. Copper supported on ZnO and ZnAl mixed oxide (Zn/Al = 0.5) was active towards hydroxyacetone formation. Nickel was active in the hydrogenolysis of glycerol both for C–C and C–O bonds cleavage of glycerol producing CH4. Strong metal-support interactions (SMSI) between Ni and ZnO has a remarkable suppression effect on the methanation activity during the glycerol conversion.
Article's DOI:	10.1016/j.jechem.2019.07.003
Link to the original source:	https://www.sciencedirect.com/science/article/pii/S2095495619307338
Paper version:	info:eu-repo/semantics/acceptedVersion
licence for use:	https://creativecommons.org/licenses/by/3.0/es/
Department:	Enginyeria Química
Licence document URL:	https://repositori.urv.cat/ca/proteccio-de-dades/
Thematic Areas:	Fuel technology Engineering, chemical Energy engineering and power technology Energy (miscellaneous) Energy & fuels Electrochemistry Chemistry, physical Chemistry, applied
Keywords:	Selective hydrogenolysis Nickel Hydroxyacetone Hydrogenolysis Glycerol Gas-phase dehydration Ethylene-glycol Dehydration Cu/zno/al2o3 catalysts Copper Conversion Chemicals Catalyst Biomass Acrolein 1,3-propanediol 1,2-propanediol
Entity:	Universitat Rovira i Virgili
Record's date:	2025-02-19

Description:	© 2019 Science Press and Dalian Institute of Chemical Physics, Chinese Academy of Sciences Gas-phase catalytic conversion of glycerol to value added chemicals was investigated over zinc-supported copper and nickel catalysts. The addition of aluminum in the support was also investigated in glycerol conversion and the results indicate an increase in the acidity and adsorption capacity for both copper and nickel catalysts. HRTEM and XRD analysis revealed NiZn alloy formation in the Ni/ZnO catalyst. The XRD patterns of the prepared ZnAl mixed oxide catalysts show the presence of Gahanite phase (ZnAl2O4). In addition, H2 chemisorption and TPR results suggest a strong metal-support interactions (SMSI) effect between Ni and ZnO particles. Bare supports ZnO and ZnAl (Zn/Al = 0.5) were investigated in the glycerol conversion and they did not present activity. Copper supported on ZnO and ZnAl mixed oxide (Zn/Al = 0.5) was active towards hydroxyacetone formation. Nickel was active in the hydrogenolysis of glycerol both for C–C and C–O bonds cleavage of glycerol producing CH4. Strong metal-support interactions (SMSI) between Ni and ZnO has a remarkable suppression effect on the methanation activity during the glycerol conversion.
Title:	Catalytic performance of zinc-supported copper and nickel catalysts in the glycerol hydrogenolysis
Type:	Journal Publications
Contributor:	Universitat Rovira i Virgili
Subject:	Chemistry, Applied,Chemistry, Physical,Electrochemistry,Energy & Fuels,Energy (Miscellaneous),Energy Engineering and Power Technology,Engineering, Chemical,Fuel Technology Selective hydrogenolysis Nickel Hydroxyacetone Hydrogenolysis Glycerol Gas-phase dehydration Ethylene-glycol Dehydration Cu/zno/al2o3 catalysts Copper Conversion Chemicals Catalyst Biomass Acrolein 1,3-propanediol 1,2-propanediol Fuel technology Engineering, chemical Energy engineering and power technology Energy (miscellaneous) Energy & fuels Electrochemistry Chemistry, physical Chemistry, applied
Date:	2020
Format:	Universitat Rovira i Virgili (URV)
Creator:	Chimentao, RJ Ruiz, D Miranda, BC Gispert-Guirado, F Medina, F Llorca, J Santos, JBO
Rights:	info:eu-repo/semantics/openAccess

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