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干燥和压榨作用下纤维素水解障碍机理 被引量:3

The Obstacle Mechanism of Fiber Hydrolysis Saccharification during Pressing and Drying Process
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摘要 用广角X射线衍射(XRD)和红外光谱(FT-IR)的高斯函数分峰拟合法研究了植物纤维在干燥和压榨过程中晶型和氢键模式的变化。研究结果表明,随干燥温度和压榨压力的升高,纤维素的结晶度和结晶尺寸增大,证实纤维素链间主要靠分子间氢键结合在一起,稳定纤维素链,而分子内氢键处于辅助地位;随干燥温度的升高,纤维素无定形区的有序化增强,向结晶区转化,而在压力作用下纤维素晶区间存在相互结合;经过不同干燥温度和压榨压力处理后,植物纤维纤维素的水解率下降,葡萄糖产率也随之降低。 The changes of crystalline form and hydrogen bonding patterns of renewable plant fiber during pressing and drying process were analyzed by X-ray diffraction and FT-IR spectroscopy. The FT-IR spectra of hydrogen-banded OH stretching vibration were resolved into three bands for cel- lulose I, assuming that all the vibration modes follow Ganssion distribution. Results showed that the crytallinity and crystallite size of cellulose in- crease with the increasing of drying temperature and squeezing pressure. It has been proved that cellulose chains mainly combine together by hydro- gen bonding between molecules ,while intrmnolecular hydrogen bonds take second place. With the increase of drying temperature, the amorphous re- gion of cellulose converts to the crystalline region. And under pressure crystalline regions will combine with each other. After the treatment with dif- ferent drying temperature and pressing pressure, the hydrolysis rate of the fiber and glucose production rate are reduced.
作者 杨晓敏 万金泉 马邕文 王艳
机构地区 华南理工大学环境科学与工程学院 华南理工大学制浆造纸工程国家重点实验室
出处 《中国造纸学报》 CAS CSCD 北大核心 2012年第3期37-42,共6页 Transactions of China Pulp and Paper
基金 广东省科技计划项目资助(2010B010900026) 中央高校基本科研业务费重点项目(2012ZZ0050)
关键词 植物纤维 XRD FT-IR 氢键 分峰拟合 plant fiber XRD FT-IR hydrogen bonding fitting process
分类号 TS712 [轻工技术与工程—制浆造纸工程]
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参考文献14

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  • 2Wada Masahisa, Nishiyama Yoshiharu, Langan Paul. X-ray Structureof Ammonia Cellulose I: New Insights into the Conversion of CelluloseI to Cellulose 1H1[J]. Macromolecules, 2006,39; 2947. 被引量:1
  • 3Wada Masahisa, Heux Laurent, Nishiyama Yoshiharu, et al. X-rayCrystallographic, Scanning Microprobe X-ray Diffraction, And CrossPolarized/Magic Angle Spinning 13 C NMR Studies of The Structure ofCellulose IH jj [ J]. Biomacromolecules, 2009,10: 302. 被引量:1
  • 4Focher B, Palma M T, Canetti M, et al. Structural differences be-tween non-wood plant celluloses : Evidence from solid state NMR, vi-brational spectmscopy and X-ray diffractometry [ J]. Industrial CropsProducts, 2001,13: 193. 被引量:1
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  • 7Ye Daiyong, Farriol X. Improving accessibility and reactivity of cellu-loses of annual plants fort theynthesis of methylcellulose [ J]. Cellu-lose, 2005,12(5) : 507. 被引量:1
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同被引文献17

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中国造纸学报
2012年 第3期

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