Oxidation
of 5-hydroxymethylfurfural (HMF) to 2,5-furandicarboxylic
acid (FDCA) was carried out over Ru/Al2O3 using
O2 aqueous alkaline solutions in a trickle-bed reactor.
HMF was completely converted at 140 °C, 30 bar O2,
resulting in 98% FDCA selectivity (pH 11, GHSV = 900 h–1, WHSV = 1 h–1). At 140 °C, FDCA was the main
product under all conditions. Alkali (nature and concentration) played
a significant role in oxidation or degradation of HMF. The selectivity
to oxidized compounds was favored using Na2CO3 by accelerating oxidation steps, principally to the aldehyde group
maintaining an appropriate pH for the reaction. The estimated kinetic
parameters obtained were statistically significant, suggesting an
accurate representation of the system. The effects of parameters such
as temperature, GHSV, WHSV, and oxygen pressure on product distribution
and HMF conversion were evaluated. The catalyst showed high stability,
retaining activity after 12 cycles, being reactivated by a simple
hydrothermal treatment.
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