| dc.description.abstract | Inulin is considered as an attractive feed for the synthesis of 5-hydroxymethylfurfural (HMF),
an important biobased platform chemical with high application potential. We here report a
systematic study to optimize the HMF yield from inulin in a batch reactor for reactions
in water using sulphuric acid as the catalyst. The latter was selected on the basis of a
screening study with seven organic- and inorganic Brönsted acids (H
2
SO
,
HCl, trifluoroacetic acid, maleic acid and fumaric acid). The effect of process conditions
such as temperature (160–184
C), inulin loading (0.05–0.17 g/mL), sulphuric acid concentration
(0.001–0.01 M) and reaction time (0–60 min) on HMF and levulinic acid (LA) yields
were
determined experimentally and subsequently modeled using non-linear multivariable
regression.
The highest experimental HMF yield was 39.5 wt% (50.6 mol%) and was obtained
at
170
◦
◦
C, an inulin loading of 0.17 g/mL, a sulphuric acid concentration of 0.006 M and a
reaction
time of 20 min. Agreement between experiments and model for both HMF and LA
yield
was very satisfactorily. | en_US |
