Experimental and Kinetic Modeling Studies on the Sulfuric Acid Catalyzed Conversion of D‑Fructose to 5‑Hydroxymethylfurfural and Levulinic Acid in Water
Date
2016-08-31Author
FACHRI, Boy Arief
ABDILLAH
HANK H. van de Bovenkamp
RASRENDRA, Carolus B.
Metadata
Show full item recordAbstract
Levulinic acid (LA) and 5-hydroxymethylfurfural (HMF) have been identified as promising biomass-derived
platform chemicals. A kinetic study on the conversion of
D-fructose to HMF and LA in water using sulfuric acid as the catalyst has
been performed in batch setups. The experiments were carried out in a temperature window of 140−180 °C, using sulfuric acid
as the catalyst (0.005−1 M) and an initial D-fructose concentration between 0.1 and 1 M. A kinetic model for the conversion of
D-fructose to HMF and the subsequent reaction of HMF to LA was developed including the kinetics for the formation of solid
byproducts (humins) using a power-law approach. According to the model, the maximum attainable HMF yield in the
experimental window is 56 mol % (C
= 0.005 M; 166 °C), which is close to the highest experimental value
within the range (53 mol %) and considerably higher than that reported for D-glucose. The highest modeled LA yield was 70 mol
%(C
fruc
= 0.1 M; C
acid
fruc
= 0.1 M; C
acid
= 1 M; 140 °C), close to the experimental value of 74 mol %. This LA yield is considerably higher than
that found for
D-glucose within the range of experimental conditions. The model was used to determine the optimum reactor
configuration for highest HMF and LA yields, and it is shown that highest HMF yields are attainable in a PFR reactor, whereas a
large extent of backmixing is favorable when aiming for a high LA yield.
Collections
- LSP-Jurnal Ilmiah Dosen [7302]