NORDIC PULP & PAPER RESEARCH JOURNAL
Home » Volume 32, 2017 » Issue No. 4
SPECIAL ISSUE ON LIGNIN
Filtration properties of kraft lignin: The influence of xylan and precipitation conditions. - OPEN ACCESS
Julie Durruty, Tor Sewring, Helen Schneider, Lynn Schneider, Tuve Mattsson and Hans Theliander
Abstract
LignoBoost lignin powder was dissolved together with xylan and re-precipitated. The influence of the (i) precipitation temperature, (ii) rate of acidification and (iii) final pH of the slurries on the resulting material and its filtration properties was investigated. In the case of slow acidification, larger agglomerates were obtained for slurries with higher precipitation temperatures as well as with higher ionic strengths. Fast acidification led to a more heterogeneous formation of particles, having a broader particle size distribution, compared to slow acidification. Chemical analysis of different layers of the filter cakes formed revealed that xylan was distributed evenly on the solid lignin, reinforcing the hypothesis that xylan is sorbed onto the lignin agglomerates when precipitated together with lignin. Furthermore, the resulting lignin-xylan mixtures were found to be more difficult to filter in the case of a higher final pH of the slurry (pH 4), close to the pKa values of the carboxylic acid groups of xylan, compared to lower pH values (pH 1-3). This is likely the result of an increase in electrostatic repulsive interactions between the particles/agglomerates at higher pH: a locally more porous solid structure is formed, leading to a larger solid/liquid surface area during filtration.
Keywords
Acid precipitation, Cake filtration, Kraft softwood lignin, Particle properties, Xylans
Pages
508-526
DOI
10.3183/NPPRJ-2017-32-04-p508-526
Full text
PDF Document N2017-32-04_p508-526_Theliander.pdf (2474KB)
Filtration properties of kraft lignin: The influence of xylan and precipitation conditions. - OPEN ACCESS (2017-32-04_p508-526_Theliander.pdf)
Nordic Pulp & Paper Research Journal (NPPRJ) is an international scientific magazine covering science and technology for the areas of wood or bio-mass constituents, pulp and paper and including new fiber-based materials, recovery and by-products from pulping processes, bio-refining and energy issues. Articles meeting required scientific standards are accepted from any continent.
ISSN: 0283-2631