Comparative study on liquefaction behaviors of xylan hemicellulose as treated by different hydrothermal methods
Liquefaction behaviors of xylan were studied as treated by six different hydrothermal methods. As a comparative study, a xylan sample isolated from corn core was subjected to hot-compressed water, hot-compressed 0.01 and 0.1wt% H2O2 solutions under pressurization of N2or CO2 at 110–250 °C for 0 min...
| Published in: | Energy Reports |
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| Main Authors: | , , |
| Format: | Article in Journal/Newspaper |
| Language: | English |
| Published: |
Elsevier
2020
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| Subjects: | |
| Online Access: | https://doi.org/10.1016/j.egyr.2019.11.143 https://doaj.org/article/d08c9866378843fdb142023775c4dbd0 |
| Summary: | Liquefaction behaviors of xylan were studied as treated by six different hydrothermal methods. As a comparative study, a xylan sample isolated from corn core was subjected to hot-compressed water, hot-compressed 0.01 and 0.1wt% H2O2 solutions under pressurization of N2or CO2 at 110–250 °C for 0 min in 10-ml batch-type reactor. Not only xylose and xylo-oligosaccharides, but also arabinose, glucose, and acetic acid were recovered as hydrolyzed products. In addition, decomposition compounds, i.e. furans and organic acids were found. The highest xylose yield could be attained at 210 °C in all the studied hydrothermal methods, except for only 0.1wt% H2O2 solution under pressurization of CO2. By this strongly oxidative condition, where peroxy carbonic acid was formed in situ, the temperature that xylose could be highly recovered was at 190 °C. The highest xylose yield of 61.62wt% was obtained by 0.01wt% H2O2 solution under pressurization of N2. Formation of furan compounds showed a preference to the treatments with pressurized CO2, while organic acids had a better recovery when N2was applied. Different results in the production of various liquefied products could be attributed to the degree of hydrolysis and oxidation reactions which altered under the different hydrothermal methods. Keywords: Carbon dioxide, Hemicellulose, Hydrogen peroxide, Hydrolysis, Liquefaction, Oxidation, Xylan |
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