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High consistency mechano-enzymatic pretreatment for kraft fibres: effect of treatment consistency on fibre properties

Jenni Rahikainen, Outi Mattila, Thaddeus Maloney, Ville A. Lovikka, Kristiina Kruus, Anna Suurnäkki, Stina Grönqvist

2020Cellulose25 citationsDOIOpen Access PDF

Abstract

Abstract Fibre reactivity is essential for cellulose dissolution and derivatisation and a porous fibre structure is one key determinant for a highly reactive pulp. Mechanical and enzymatic treatments are known to improve fibre reactivity and more recently, the combination of mechano-enzymatic treatment has been shown to synergistically enhance the beneficial effect. The aim of this work was to do a systematic study on the effect of dry matter content during enzymatic modification of fibres and define the conditions that optimally improve fibre porosity. The combined mechano-enzymatic treatments at 15–25 w% consistency had the most pronounced effect on fibre porosity and morphology analysed by solute exclusion technique, nitrogen sorption and scanning electron microscopy. Light microscopy imaging confirmed that the combined mechano-enzymatic treatment at high consistency (> 10 w%) resulted in extensive fibrillation of the treated fibres which was not observed after sole mechanical or enzymatic treatments.

Topics & Concepts

PorosityCelluloseMaterials scienceSurface modificationScanning electron microscopeKraft paperEnzymatic hydrolysisSorptionChemical modificationComposite materialChemical engineeringChemistryEnzymeOrganic chemistryPolymer chemistryAdsorptionEngineeringAdvanced Cellulose Research StudiesBiofuel production and bioconversionLignin and Wood Chemistry
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