Organosolv-derived lipids from hemicellulose and cellulose, and pre-extracted tannins as additives upon hydrothermal liquefaction (HTL) of spruce bark lignins to bio-oilShow others and affiliations
2024 (English)In: BMC Biotechnology, E-ISSN 1472-6750, Vol. 24, no 1, article id 96
Article in journal (Refereed) Published
Abstract [en]
The rise in global temperature and accumulation of petroleum-based wastes in the environment forces the scientific focus towards renewable alternatives. In the present work, an under-exploited resource – spruce bark – is investigated as a raw material for production of bio-oil as a liquid energy carrier. To enhance the energy-content of the produced bio-crude, ultimately being produced through hydrothermal liquefaction, the polysaccharides were extracted through organosolv fractionation and converted to lipids by oleaginous microorganisms. The effect originating from tannins was also investigated by performing a pre-extraction before the organosolv fractionation. It was found that performing the organosolv fractionation and upgrading the isolated organosolv lignin to bio-oil greatly reduced the oxygen content of the oil fraction thereby improving its energy content, and introducing upgraded polysaccharides in the form of lipids, as well as pre-extracted tannins, caused clear changes in the product distribution of the final bio-oil and kept a final product with low oxygen content. The other factor largely influencing the product distribution originated from the various heating rates tested by altering operational mode of the HTL process between batch and semi-continuous. Ultimately, performing the organosolv fractionation and individual upgrading of the polysaccharides had a beneficial effect on reducing the final solids content and enhancing the liquid oil yield.
Place, publisher, year, edition, pages
BioMed Central Ltd , 2024. Vol. 24, no 1, article id 96
Keywords [en]
Distribution; Energy; Fractionation; Lipids; Oil; Polysaccharides; Production; Tannins; Biofuels; Cellulose; Chemical Fractionation; Lignin; Lipids; Picea; Plant Bark; Polysaccharides; Tannins; Petroleum additives; cellulose; fatty acid; hemicellulose; hemicellulose hydrolysate; lignin; lipid; oxygen; tannin; unclassified drug; vegetable oil; biofuel; hemicellulose; lipid; polysaccharide; tannin derivative; Bio-oils; Energy content; Global temperatures; Hydrothermal liquefactions; Micro-algae; Microalga; Organosolv; Organosolv fractionations; Product distributions; Spruce bark; Article; bark; biomass; controlled study; energy; extraction; fractionation; heating; hydrothermal liquefaction; liquefaction; liquid; microalga; nonhuman; organosolv fractionation; reduction (chemistry); species cultivation; spruce; chemistry; fractionation; procedures; Tannins
National Category
Industrial Biotechnology
Identifiers
URN: urn:nbn:se:ri:diva-76293DOI: 10.1186/s12896-024-00917-7Scopus ID: 2-s2.0-85210322435OAI: oai:DiVA.org:ri-76293DiVA, id: diva2:1924194
Note
This work was part of the projects “Bark conversion into green fuels (BarkGF)” and “Eco-efficient biorefinery for competitive production of green renewable shipping fuels (ECO-FORCE FUELS)” funded by the Swedish Energy Agency with reference numbers 2018–017714 and 2022-201046 respectively
2025-01-032025-01-032025-09-23Bibliographically approved