Kraft pulping of birch: Insights into delignification and xylan removal
Licentiatavhandling, 2024
The first study assessed the influence of mass transport on pulping by using impregnation liquors with different compositions and by comparing black liquor fractions collected from the bulk (surrounding the wood chips) and from the pore system of wood. The results showed that the transport of OH- and SH- during impregnation led to more extensive delignification throughout cooking. Moreover, when analyzing the black liquor fractions, higher concentrations and an initial accumulation of lignin and xylan were observed in the pore system. Also, the structure of the dissolved wood components in the pore and bulk fractions differed, highlighting the influence of mass transport resistance in the cell walls and pore system of wood.
The second study evaluated the local evolution of pulping within model wood chips under different cooking conditions. The extent of lignin and xylan removal strongly depended on the available hydroxide content within the chips. In addition, lignin was removed more uniformly from wood when using low cooking temperatures (145°C). Lastly, pulping was shown to progress faster in the longitudinal direction of the chips.
hardwood
mass transport
xylan
kraft pulping
black liquor
delignification
Författare
Carolina Marion de Godoy
Chalmers, Kemi och kemiteknik, Kemiteknik
Kraft cooking of birch wood chips: Differences between the dissolved organic material in pore and bulk liquor
Holzforschung,;Vol. 77(2023)p. 598-609
Artikel i vetenskaplig tidskrift
Marion de Godoy, C., Hasani, M., Theliander, H. Kraft pulping of model wood chips: local impact of process conditions on hardwood delignification and xylan retention
Ämneskategorier
Pappers-, massa- och fiberteknik
Kemiteknik
Utgivare
Chalmers
KD2, Kemigården 4, Chalmers.