Hydrogen production by steam reforming of bio-oil/bio-ethanol mixtures in a continuous thermal-catalytic process
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Date
2014-04-24Author
Remiro Eguskiza, Aingeru
Valle Pascual, Beatriz
Oar Arteta, Lide
Bilbao Elorriaga, Javier
Gayubo Cazorla, Ana Guadalupe
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International Journal of Hydrogen Energy 39(13) : 6889-6898 (2014)
Abstract
The feasibility of the steam reforming of bio-oil aqueous fraction and bio-ethanol mixtures has been studied in a continuous process with two in-line steps: thermal step at 300 ºC (for the controlled deposition of pyrolytic lignin during the heating of the bio-oil/bio-ethanol feed) followed by steam reforming in a fluidized bed reactor on a Ni/-Al2O3 catalyst. The effect of bio-ethanol content in the feed has been analyzed in both the thermal and reforming steps, and the suitable range of operating conditions (temperature and space-time) has been determined for obtaining a high and steady hydrogen yield. Higher ethanol content in the mixture feed improves the reaction indices and reduces coke deposition. Operating conditions of 700 ºC and space-times higher than 0.23 gcatalyst h (gbio-oil+EtOH)-1 are suitable for attaining almost fully conversion of oxygenates (bio-oil and ethanol) and hydrogen yields above 93 %, with low catalyst deactivation.