Effect of Xylanase-Assisted Treatment of Oxygen-Delignified Eucalypt Kraft Pulp on ECF Bleaching

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abstract

The effects of treating industrial (laboratory-unwashed) oxygen-delignified eucalypt kraft pulp with a commercial endo-xylanase (X) on ECF bleaching performance were evaluated. Changes in fibre morphology, pulp bleachability and quality, and bleaching effluent parameters were assessed. Although no significant morphological changes were observed, fibres showed some external fibrillation. The X stage reduced both the amount and the integrity of xylans remaining in the fibres, causing their redistribution inside the cell wall. In bleaching, the X treatment allowed the reduction of ClO2 and NaOH loads by 20 and 10%, respectively. Furthermore, the brightness stability of enzyme-treated bleached pulps was improved, which was assigned to the decrease in the content of hexenuronic acid residues. The X treatment did not affect the cellulosic counterpart of pulp and did not cause a significant impact on the papermaking properties, even when xylan degradation was somewhat excessive. The enzymatic treatment caused a significant increase in the chemical oxygen demand (COD) of the respective effluent. The realistic conditions used provide a better insight into the overall impact of this technology at a pulp mill.

keywords

FIBER MORPHOLOGY; CHLORINE; LIGNIN; APPLICABILITY; COMPONENTS; MECHANISM; IMPACT

subject category

Forestry

authors

Matos, JMS; Evtuguin, DV; Sousa, APM; Carvalho, MGVS

our authors

foto Dmitry Evtyugin

Dmitry Evtyugin

Associate Professor with Aggregation

Groups

G4 - Renewable Materials and Circular Economy

acknowledgements

This work was carried out under the project inpactus-innovative products and technologies from Eucalyptus, Project No. 21874 funded by Portugal 2020 through the European Regional Development Fund (ERDF) in the frame of COMPETE 2020 No. 246/AXIS II/2017.

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Publication Details

type
Journal Article
year
2023
journal
FORESTS
volume
14
article number
396
publisher
MDPI
issue
2
digital object identifier
10.3390/f14020396
web of science article identifier
WOS:000945121300001

Journal Metrics (JCR 2019)

Journal Impact Factor
2.221
Journal Impact Factor (5 yrs)
2.484
category normalized journal percentile
75.735

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