Mechano-chemical, high-consistency activation of kraft pulp in deep eutectic solvent of choline chloride and urea

Marianna Vehviläinen (Corresponding Author), Terhi Suopajärvi, Juho Antti Sirviö, Elisa Spönla, Pauliina Ahokas, Jenni Rahikainen, Hannu Minkkinen, Henrikki Liimatainen

Research output: Contribution to journalArticleScientificpeer-review

Abstract

Deep eutectic solvents (DESs) offer an appealing green medium for the activation of cellulose fibres to promote their swelling, reactivity, hydrolysis, disintegration, and solubility for further processing. Typically, DES treatments are carried out below 5 wt% consistency even though a higher solids content could enhance the fibre activation and reduce the solvent consumption. In this work, a high-consistency (HC) mechano-chemical activation of bleached softwood kraft pulp was elucidated using a simultaneous fibre treatment with DES of choline chloride-urea and a sigma-type kneader or a twin-screw extruder at a solids content of 15–35 wt% and 30 wt%, respectively. Both HC treatments efficiently triggered fibre swelling, which was indicated by an increase in the fibre width, and loosened the cell wall structure which was indicated by an increase in the mesopore volume. Mechano-chemical HC processing generated fibre fines and external fibrillation, while the molecular-level structural alteration or changes in chemical composition were minor; the intrinsic viscosity and the crystallinity of the pulp remained at their initial level and only a small amount of xylan was dissolved. Overall, HC treatment in a twin-screw extruder caused notably more severe morphological changes in the fibres than batch treatment in a sigma-type kneader. Thus, the mechano-chemical HC treatment with DES provides an industrially relevant technology for cellulose modification and opens possibilities to enhance heterogeneous cellulose modification processes in which the highly available surface area of pulp is a key parameter.
Original languageEnglish
JournalCellulose
Early online date16 Aug 2024
DOIs
Publication statusE-pub ahead of print - 16 Aug 2024
MoE publication typeA1 Journal article-refereed

Funding

This work was part of the ValCel-Value for Cellulosics Co-Innovation joint project funded by Business Finland (No. 42679/31/2020).

Keywords

  • Cellulose
  • DES
  • High-consistency
  • Mesopores
  • Reactivity
  • Twin-screw extruder

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