Deactivation of Ni spinel derived catalyst during the oxidative steam reforming of raw bio-oil
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Date
2020-05-12Author
Arandia Gutiérrez, Aitor
Remiro Eguskiza, Aingeru
Oar Arteta, Lide
Bilbao Elorriaga, Javier
Gayubo Cazorla, Ana Guadalupe
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Fuel 276 : (2020) // Article ID 117995
Abstract
Deactivation of a bulk catalyst derived from NiAl2O4 spinel during the oxidative steam reforming (OSR) of raw bio-oil has been studied. The experiments were performed in a continuous system with two units in series: a thermal treatment unit at 500 ºC for the controlled deposition of pyrolytic lignin, and a fluidized bed reactor (700 ºC; S/C, 6; O/C, 0.34; space time, 0.15 gcatalysth·gbio-oil-1; time on stream, 1, 2, 4 and 6 h) for the OSR of the remaining oxygenates. The deactivation affects the reforming of bio-oil oxygenates according to their reactivity (from lower to higher), with the reforming of phenols being rapidly affected. The causes of deactivation are: i) coke deposition on the Ni0 sites and on the Al2O3 support (6 wt % of each coke type after 6 h on stream), and; ii) sintering of Ni0 crystals (with an increase in crystal size from 10.8 to 17.7 nm (measured by TEM)). The catalyst deactivation rate increases with time on stream, with the bio-oil oxygenates being the main coke precursors