Karin Carlqvist scite author profile

Softwood bark contains a large amounts of extractives—i.e., soluble lipophilic (such as resin acids) and hydrophilic components (phenolic compounds, stilbenes). The effects of the partial removal of water-soluble extractives before acid-catalyzed steam pretreatment on enzymatic digestibility were assessed for two softwood barks—Norway spruce and Scots pine. A simple hot water extraction step removed more than half of the water-soluble extractives from the barks, which improved the enzymatic digestibility of both steam-pretreated materials. This effect was more pronounced for the spruce than the pine bark, as evidenced by the 30 and 11% glucose yield improvement, respectively, in the enzymatic digestibility. Furthermore, analysis of the chemical composition showed that the acid-insoluble lignin content of the pretreated materials decreased when water-soluble extractives were removed prior to steam pretreatment. This can be explained by a decreased formation of water-insoluble “pseudo-lignin” from water-soluble bark phenolics during the acid-catalyzed pretreatment, which otherwise results in distorted lignin analysis and may also contribute to the impaired enzymatic digestibility of the barks. Thus, this study advocates the removal of extractives as the first step in the processing of bark or bark-rich materials in a sugar platform biorefinery.Electronic supplementary materialThe online version of this article (doi:10.1007/s12010-017-2577-2) contains supplementary material, which is available to authorized users.

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Life cycle assessment for identification of critical aspects in emerging technologies for the extraction of phenolic compounds from spruce bark

Carlqvist

Wallberg

Lidén

et al. 2022

Journal of Cleaner Production

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Life‐cycle assessment of the production of cationized tannins from Norway spruce bark as flocculants in wastewater treatment

Carlqvist¹,

Arshadi²,

Mossing³

et al. 2020

Biofuels Bioprod Bioref

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It will be necessary to make efficient use of our resources if our society is to be converted into a bio-based economy. Every year large side streams of bark are produced in sawmills and pulp mills. In addition to utilizing the bark for heat and electricity production, as happens today, high-value chemical components could be extracted prior to energy conversion. These components include tannins. Cationized tannins have already been indicated as promising renewable flocculants in wastewater treatment. However, today's industrial production of tannins uses species from subtropical or temperate climates, and there has so far been little attention to the use of tannins from Norway spruce (Picea abies), an important species in forestry in the subarctic climate. The present life-cycle assessment (LCA) was undertaken to understand the environmental performance of the production of cationized tannins from the bark of Norway spruce and how the environmental impact is distributed along the production system. This work was connected to the Interreg Botnia-Atlantica TanWat research project, which studies the production and use of cationized tannins from Norway spruce for wastewater treatment at a pilot scale. The present LCA shows that the main environmental impact stems from the reagents used in the cationization step. The purification step could also be a significant issue depending on the possibility of reusing the eluent (ethanol) and the lifetime of the resin. The importance of running the processes with as concentrated streams as possible to minimize the need of process water and energy was also confirmed

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Implications of differences in macromolecular composition of stem fractions for processing of Scots pine

et al. 2015

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Karin Carlqvist

SO₂-catalysed steam pretreatment of quinoa stalks

Removal of Water-Soluble Extractives Improves the Enzymatic Digestibility of Steam-Pretreated Softwood Barks

Life cycle assessment for identification of critical aspects in emerging technologies for the extraction of phenolic compounds from spruce bark

Life‐cycle assessment of the production of cationized tannins from Norway spruce bark as flocculants in wastewater treatment

Implications of differences in macromolecular composition of stem fractions for processing of Scots pine

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Karin Carlqvist

SO2-catalysed steam pretreatment of quinoa stalks

Removal of Water-Soluble Extractives Improves the Enzymatic Digestibility of Steam-Pretreated Softwood Barks

Life cycle assessment for identification of critical aspects in emerging technologies for the extraction of phenolic compounds from spruce bark

Life‐cycle assessment of the production of cationized tannins from Norway spruce bark as flocculants in wastewater treatment

Implications of differences in macromolecular composition of stem fractions for processing of Scots pine

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SO₂-catalysed steam pretreatment of quinoa stalks