Production of CH4 by methanation of biogas provides a promising route towards sustainable energy production for the future. Utilization of biogas from biomass as CO2 source combines the advantage of reduction of greenhouse gas emissions producing a fuel with high energy density. In this study we apply a dip-spin coating method for washcoating Ni(7.5 wt%)Rh(0.5 wt%)/CeO2 catalyst on alumina open cell foams with different cell densities (20, 30 and 40 PPI). The catalytic activity of the structured samples was assessed using a gas mixture that simulates a typical biogas composition (CH4 = 60%vol; CO2 = 40%vol). The effects of the reaction temperature (300-600 ?C) and H-2/CO2 molar ratio in the feed (3-5) on the CO2 conversion and CH4 selectivity were evaluated under a gas hourly space velocity (GHSV) of 5100 h-1. All samples showed appreciable CO2 conversion ranging between 62.5 and 66.7% at reaction temperature of 500-600 ?C, and a CH4 productivity of 3.4 molCH(4)center dot gMe(-1)center dot h(-1 )was obtained with the catalyst supported on open cell foam with 30 and 20 PPI under a reaction temperature of 400 ?C.
RhNi/CeO2 catalytic activation of alumina open cell foams by dip-spin coating for the CO2 methanation of biogas
Balzarotti, R;Cristiani, C;
2022-01-01
Abstract
Production of CH4 by methanation of biogas provides a promising route towards sustainable energy production for the future. Utilization of biogas from biomass as CO2 source combines the advantage of reduction of greenhouse gas emissions producing a fuel with high energy density. In this study we apply a dip-spin coating method for washcoating Ni(7.5 wt%)Rh(0.5 wt%)/CeO2 catalyst on alumina open cell foams with different cell densities (20, 30 and 40 PPI). The catalytic activity of the structured samples was assessed using a gas mixture that simulates a typical biogas composition (CH4 = 60%vol; CO2 = 40%vol). The effects of the reaction temperature (300-600 ?C) and H-2/CO2 molar ratio in the feed (3-5) on the CO2 conversion and CH4 selectivity were evaluated under a gas hourly space velocity (GHSV) of 5100 h-1. All samples showed appreciable CO2 conversion ranging between 62.5 and 66.7% at reaction temperature of 500-600 ?C, and a CH4 productivity of 3.4 molCH(4)center dot gMe(-1)center dot h(-1 )was obtained with the catalyst supported on open cell foam with 30 and 20 PPI under a reaction temperature of 400 ?C.File | Dimensione | Formato | |
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Surface & Coatings Technology 441 (2022) 128563.pdf
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