纳滤法从稀酸水解稻草中分离呋喃和羧酸与糖。

Separation of furans and carboxylic acids from sugars in dilute acid rice straw hydrolyzates by nanofiltration.

机构信息

Institute of Nuclear Energy Research, Atomic Energy Council, Executive Yuan, 1000 Wenhua Rd., Jiaan Village, Longtan Township, Taoyuan County 325, Taiwan, ROC.

出版信息

Bioresour Technol. 2010 Jul;101(13):4889-94. doi: 10.1016/j.biortech.2009.11.090.

DOI:10.1016/j.biortech.2009.11.090

PMID:20022241

Abstract

This work studied the concentration of hydrolyzates obtained from dilute acid hydrolysis of rice straw using nanofiltration (NF). In order to minimize the Donnan exclusion effect of the membrane, the hydrolyzate solution was controlled at low pH value. Negative retentions of both furans and carboxylic acids were observed. The maximum separation factor of acetic acid over xylose was 49, while the maximum separation factor of acetic acid over arabinose was 52, when the system was operated at pH 2.9 and an applied pressure of 24.5-34.3 bar. The separation factors of inhibitors over glucose became infinity due to the complete retention of glucose. The separation performance decreased when the operating temperature was increased from 25 to 40 degrees C. The flux deterioration was recovered by flushing with 0.01 N of NaOH and water.

摘要

本工作研究了采用纳滤（NF）从稀酸水解稻草中获得的水解产物的浓度。为了最小化膜的道南排斥效应，将水解液控制在低 pH 值。呋喃和羧酸都观察到了负截留。当系统在 pH 值为 2.9 和施加压力为 24.5-34.3 巴时，乙酸相对于木糖的最大分离因子为 49，而乙酸相对于阿拉伯糖的最大分离因子为 52。由于葡萄糖的完全截留，抑制剂相对于葡萄糖的分离因子变为无穷大。当操作温度从 25°C 升高到 40°C 时，分离性能下降。通过用 0.01N 的 NaOH 和水冲洗可恢复通量劣化。

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纳滤法从稀酸水解稻草中分离呋喃和羧酸与糖。

Separation of furans and carboxylic acids from sugars in dilute acid rice straw hydrolyzates by nanofiltration.

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