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Abstract
The enzymatic conversion of cellulosic-rich waste streams of white asparagus into cellobiose and cello-oligosaccharides (COS) is proposed for producing a natural carrier agent. The enzyme cocktail ‘Celluclast’ was used to steer towards maximum conversion and minimum formation of monosaccharides to obtain an enzymatic hydrolysate with a high glass transition temperature (Tg). Different enzyme loadings and hydrolysis times were tested in combination with a sodium hydroxide pre-treatment of the asparagus fibre. A loading of 700 nkat/g substrate and 7 h of hydrolysis time resulted in the best yield/purity combination, namely a conversion of 36 g/100 g cellulose with 81% celllobiose/COS. The same hydrolysis conditions were tested in a larger bench-scale experiment (conversion of 45 g/100 g cellulose) and the soluble hydrolysates were concentrated and spray-dried. The high Tg (108 °C) of the spray-dried hydrolysates of asparagus fibre proves its potential usage as a carrier agent for spray drying.
Original language | English |
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Article number | 113273 |
Journal | LWT |
Volume | 160 |
DOIs | |
Publication status | Published - 15 Apr 2022 |
Keywords
- Asparagus
- Carrier agent
- Cello-oligosaccharides
- Spray drying
- Waste valorisation
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Dive into the research topics of 'Steering the formation of cellobiose and oligosaccharides during enzymatic hydrolysis of asparagus fibre'. Together they form a unique fingerprint.Projects
- 1 Finished
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WASTE2TASTE: Unravelling white asparagus flavor using metabolomics.
Pegiou, E. (PhD candidate), Hall, R. (Promotor), Mumm, R. (Co-promotor) & de Vos, R. (Other)
1/11/18 → 10/05/23
Project: PhD