微固碱催化水热脱糖法制备重组竹板与低聚木糖的偶联研究

Yetao Jiang, Zhiyi Shen, Cheng Bu, Zhanghua Wu, Xiaoyu Wang, Lei Hu
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引用次数: 0

摘要

低温炭化通常用于分解竹半纤维素,以提高竹板的防腐防霉性能。由于从竹子中提取木聚糖可以生产低聚木糖,因此竹子去糖化和低聚木糖生产之间存在良好的耦合点。在本研究中,通过固体碱催化水热减温处理,可以实现木聚糖在竹子中的溶解和可控的聚合水解度,并保持竹子的力学性能。采用适当的碱抑制法,木聚糖的收率可达16.8%。此外,脱绒竹板的颜色较浅,适用范围广。与碳化竹板相比,减温竹板的关键力学性能显著提高了2-4倍。在相同的条件下,d减温竹板的防腐防霉性能也优于炭化竹板。总之,本研究证明了水热除糖偶联制备户外再生竹板的可行性。
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Coupling Preparation of Reconstituted-Bamboo-Board and Xylooligosaccharide via Hydrothermal Desaccharification Catalyzed by Slight Solid Alkali
Low-temperature carbonization is usually used to decompose bamboo hemicellulose to improve anti-decay and anti-mildew properties of bamboo board. Since xylan extraction from bamboo can produce xylo-oligosaccharides, there is a good coupling point between bamboo desaccharification and xylo-oligosaccharide production. In this study, the solution of xylan in bamboo and the controllable degree of polymerization hydrolysis could be achieved by solid base catalytic hydrothermal desugar treatment as well as the mechanical properties of bamboo could be maintained. The yield of xylan was up to 16.8% by appropriate alkali-suppressed method. In addition, the color of the desugared bamboo board was lighter, which was applicable to a wide range. Compared with carbonized bamboo board, the key mechanical properties of desugared bamboo board were significantly improved by 2 to 4 times. Under the same conditions, the anti-decay and anti-mildew properties of d desugared bamboo board were better than those of carbonized bamboo board as well. In conclusion, this study demonstrated the feasibility of hydrothermal desaccharification coupling for the preparation of outdoor reconstituted-bamboo-board.
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来源期刊
Journal of Biobased Materials and Bioenergy
Journal of Biobased Materials and Bioenergy 工程技术-材料科学:生物材料
自引率
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发文量
60
审稿时长
6 months
期刊最新文献
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