Production of hydrogen by catalytic steam reforming of oxygenated model compounds on Ni-modified supported catalysts. Simulation and experimental study
Steam reforming of two representative components in the aqueous fraction of bio-oil, acetone and ethanol, was investigated over nickel based supported catalysts (Ni/Al2O3). The effect of Rh incorporation (Ni-Rh/Al2O3) and the properties of different γ-Al2O3 used as support was tested. Hydrogen-rich...
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2015
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Acceso en línea: | https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_03603199_v40_n34_p11217_GonzalezGil http://hdl.handle.net/20.500.12110/paper_03603199_v40_n34_p11217_GonzalezGil |
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paper:paper_03603199_v40_n34_p11217_GonzalezGil2023-06-08T15:34:43Z Production of hydrogen by catalytic steam reforming of oxygenated model compounds on Ni-modified supported catalysts. Simulation and experimental study Hydrogen Mathematical model Ni-modified catalysts Oxygenated compounds Steam reforming Acetone Alumina Carbon Catalyst supports Catalysts Catalytic reforming Ethanol Hydrogen Hydrogen production Mathematical models MATLAB Nickel Rhodium Aqueous fractions Catalytic steam reforming Ethanol reforming Hydrogen-rich gas Ni-modified Optimal operating conditions Oxygenated compounds Production of hydrogen Steam reforming Steam reforming of two representative components in the aqueous fraction of bio-oil, acetone and ethanol, was investigated over nickel based supported catalysts (Ni/Al2O3). The effect of Rh incorporation (Ni-Rh/Al2O3) and the properties of different γ-Al2O3 used as support was tested. Hydrogen-rich gas is produced at temperatures higher than 673 K in both acetone and ethanol reforming with maximum mole fraction of 0.6-0.7. The reactions involved and the possible routes were studied. Rh incorporation and nanostructured alumina affects the Ni metal size and the amount of carbon deposited onto catalysts' surface after reforming tests; besides, acetone is also found as an important intermediate in ethanol reforming, and Rh improve hydrogen production with negligible intermediates presence. The effect of S/Acetone or S/Ethanol feed molar ratios, space velocity and temperature over acetone/ethanol conversion and over H2/CO ratio were modeled using the Matlab software in order to find the regions and the optimal operating conditions in both processes. Simulation results are consistent with the experimental data. © 2015 Hydrogen Energy Publications, LLC. All rights reserved. 2015 https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_03603199_v40_n34_p11217_GonzalezGil http://hdl.handle.net/20.500.12110/paper_03603199_v40_n34_p11217_GonzalezGil |
institution |
Universidad de Buenos Aires |
institution_str |
I-28 |
repository_str |
R-134 |
collection |
Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA) |
topic |
Hydrogen Mathematical model Ni-modified catalysts Oxygenated compounds Steam reforming Acetone Alumina Carbon Catalyst supports Catalysts Catalytic reforming Ethanol Hydrogen Hydrogen production Mathematical models MATLAB Nickel Rhodium Aqueous fractions Catalytic steam reforming Ethanol reforming Hydrogen-rich gas Ni-modified Optimal operating conditions Oxygenated compounds Production of hydrogen Steam reforming |
spellingShingle |
Hydrogen Mathematical model Ni-modified catalysts Oxygenated compounds Steam reforming Acetone Alumina Carbon Catalyst supports Catalysts Catalytic reforming Ethanol Hydrogen Hydrogen production Mathematical models MATLAB Nickel Rhodium Aqueous fractions Catalytic steam reforming Ethanol reforming Hydrogen-rich gas Ni-modified Optimal operating conditions Oxygenated compounds Production of hydrogen Steam reforming Production of hydrogen by catalytic steam reforming of oxygenated model compounds on Ni-modified supported catalysts. Simulation and experimental study |
topic_facet |
Hydrogen Mathematical model Ni-modified catalysts Oxygenated compounds Steam reforming Acetone Alumina Carbon Catalyst supports Catalysts Catalytic reforming Ethanol Hydrogen Hydrogen production Mathematical models MATLAB Nickel Rhodium Aqueous fractions Catalytic steam reforming Ethanol reforming Hydrogen-rich gas Ni-modified Optimal operating conditions Oxygenated compounds Production of hydrogen Steam reforming |
description |
Steam reforming of two representative components in the aqueous fraction of bio-oil, acetone and ethanol, was investigated over nickel based supported catalysts (Ni/Al2O3). The effect of Rh incorporation (Ni-Rh/Al2O3) and the properties of different γ-Al2O3 used as support was tested. Hydrogen-rich gas is produced at temperatures higher than 673 K in both acetone and ethanol reforming with maximum mole fraction of 0.6-0.7. The reactions involved and the possible routes were studied. Rh incorporation and nanostructured alumina affects the Ni metal size and the amount of carbon deposited onto catalysts' surface after reforming tests; besides, acetone is also found as an important intermediate in ethanol reforming, and Rh improve hydrogen production with negligible intermediates presence. The effect of S/Acetone or S/Ethanol feed molar ratios, space velocity and temperature over acetone/ethanol conversion and over H2/CO ratio were modeled using the Matlab software in order to find the regions and the optimal operating conditions in both processes. Simulation results are consistent with the experimental data. © 2015 Hydrogen Energy Publications, LLC. All rights reserved. |
title |
Production of hydrogen by catalytic steam reforming of oxygenated model compounds on Ni-modified supported catalysts. Simulation and experimental study |
title_short |
Production of hydrogen by catalytic steam reforming of oxygenated model compounds on Ni-modified supported catalysts. Simulation and experimental study |
title_full |
Production of hydrogen by catalytic steam reforming of oxygenated model compounds on Ni-modified supported catalysts. Simulation and experimental study |
title_fullStr |
Production of hydrogen by catalytic steam reforming of oxygenated model compounds on Ni-modified supported catalysts. Simulation and experimental study |
title_full_unstemmed |
Production of hydrogen by catalytic steam reforming of oxygenated model compounds on Ni-modified supported catalysts. Simulation and experimental study |
title_sort |
production of hydrogen by catalytic steam reforming of oxygenated model compounds on ni-modified supported catalysts. simulation and experimental study |
publishDate |
2015 |
url |
https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_03603199_v40_n34_p11217_GonzalezGil http://hdl.handle.net/20.500.12110/paper_03603199_v40_n34_p11217_GonzalezGil |
_version_ |
1768544133851381760 |