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Energy-related assessment of a hemicellulose-first concept - debottlenecking of a hydrothermal wheat straw biorefinery
Citation Link: https://doi.org/10.15480/882.14595
Publikationstyp
Journal Article
Date Issued
2025-01-29
Sprache
English
TORE-DOI
Journal
Volume
30
Issue
3
Article Number
602
Citation
Molecules 30 (3): 602 (2025)
Publisher DOI
Scopus ID
Publisher
Multidisciplinary Digital Publishing Institute
A hemicellulose-first approach can offer advantages for biorefineries utilizing wheat straw as it combines lignocellulose fractionation and potentially higher added value from pentose-based hemicellulose. Therefore, a tailored hydrothermal concept for the production of xylooligosaccharides and xylan was investigated. The focus was on assessing the energy requirements and potential improvements based on experimental results. The wheat straw pretreatment and the downstream processing of hemicellulose hydrolysate were modeled at a scale of 30,000 tons of wheat straw dry mass per year. The results confirmed that the hydrothermal concept can be implemented in an energy-efficient manner without the need for additional auxiliaries, due to targeted process design, heat integration and a high solids loading during hydrolysis. The resulting specific energy requirements for pretreatment and hydrolysate processing are 0.28 kWh/kg and 0.13 kWh/kg of wheat straw dry mass, respectively. Compared to thermal hydrolysate processing alone, the combination of a multi-effect evaporator and pressure-driven ultrafiltration can reduce the heating and cooling energy by 29% and 44%, respectively. However, the ultrafiltration requirements (e.g., electrical energy, membrane area and costs) depend heavily on the properties of the hydrolysate and its interactions with the membrane. This work can contribute to the commercially viable ramp-up of wheat straw multi-product biorefineries.
Subjects
autohydrolysis | steaming | xylooligosaccharides (XOS) | xylan | fractionation | ultrafiltration | modeling
DDC Class
660: Chemistry; Chemical Engineering
628: Sanitary; Municipal
630: Agriculture and Related Technologies
577: Ecology
540: Chemistry
Publication version
publishedVersion
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molecules-30-00602-v2.pdf
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