Abstract:
Furfural is a potential platform chemical derived from biomass, which has gained increased attention as a
potential substitute for the displacement of petrochemicals and the production of biofuels. The catalytic
effect of different metal tri-chlorides (FeCl3, AlCl3 and CrCl3) with formic acid (FA) was investigated for
the selective conversion of D-xylose to furfural in aqueous solutions. Reactions were carried out at various
temperatures (100–170 C), FA concentrations (0–65 wt%), and metal chloride concentrations (0.2–
0.8 M). Lyxose was identified as primary intermediate of the conversion of xylose at low temperatures
and FA concentrations. A mixture containing 0.4 M AlCl3 and 55 wt% FA was the most selective and active
system for the production of furfural at low temperatures (130 C, selectivity 70–90%). A simplified
kinetic model was developed to describe the overall xylose conversion and furfural formation under
the selected conditions, offering a valuable tool for process optimisation and design.