Research in the sustainable
conversion of biomass to fuels and
chemicals is a necessity for the reduction of the carbon footprint
in transport energy. Herein, we demonstrate an efficient tandem catalyst
to selectively convert (simulated) bio-oil to hydrocarbons with enhanced
C4+ fuel yield in a fixed bed reactor of a small pilot
plant. The tandem catalytic system is a multifunctional dual bed system;
carbon coupling catalysts (0.2 wt % X-TiO2(X: Ru, Pd, Au)
at the upper layer and hydro-deoxygenation (Ru-MoFeP/Al2O3) at the bottom layer in a single fixed bed reactor.
The upper-bed catalysts facilitated the carbon coupling reaction of
C2–C4 light oxygenates and significantly
reduced the light gases yield (C1–C5)
to ca. 40% and increased the organic (C4+) phase ca. 15%.
The analysis of the organic phase suggests that among the screened
upstream catalysts, 0.2 wt % Ru/TiO2||Ru-MoFeP/Al2O3 recorded the optimum activity. The coupled light oxygenates
(acetone) alkylated with the phenolic compounds and sequentially hydro-deoxygenated
to yield higher C4+ hydrocarbons. This versatile tandem
catalytic approach has a potential application in the emerging biorefinery
concept.
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