Abstract
Although xylo-oligosaccharides production from lignocelluloses via lactic acid hydrolysis is advantageous in terms of high yields with less by-products, the use of high purity lactic acid inevitably increases the cost of xylo-oligosaccharides production. The utilization of lactic acid-rich fermentation broth for xylo-oligosaccharides production can avoid the separation and purification of lactic acid. However, the feasibility of lactic acid-rich fermentation broth for xylo-oligosaccharides production from lignocelluloses was unclear. In this work, the results indicated that the highest xylo-oligosaccharides yield of 72% was obtained from corncob by lactic acid-rich fermentation broth pretreatment and xylanase hydrolysis. Subsequently, monosaccharides-rich hydrolysate (90.9 g/L) was obtained from solid residues of corncob by cellulase hydrolysis. Lactic acid-rich fermentation broth was produced by Weizmannia coagulans fermentation of the monosaccharide-rich hydrolysate. Besides, the obtained xylo-oligosaccharides and lactic acid mixture might be used as feed additives, avoiding the purification and separation of lactic acid or xylo-oligosaccharides. Meanwhile, the production cost of feed grade xylo-oligosaccharides from this work was much lower than the current market price. Overall, this work proposed a new strategy for efficient and environmental-friendly production of xylo-oligosaccharides from corncob.
Original language | English |
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Article number | 136513 |
Journal | Journal of Cleaner Production |
Volume | 397 |
DOIs | |
State | Published - Apr 15 2023 |
Funding
The authors are grateful for the support of this study by the National Natural Science Foundation of China, China (No. 32171731 ), and the Starting Research Fund from the Nanjing Forestry University, China (No. 163030103 ).
Funders | Funder number |
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Nanjing Forestry University | 163030103 |
National Natural Science Foundation of China | 32171731 |
Keywords
- By-products
- Cellulase hydrolysis
- Lactic acid-rich fermentation broth
- Organic acid hydrolysis
- Xylanase hydrolysis