期刊
INDUSTRIAL CROPS AND PRODUCTS
卷 167, 期 -, 页码 -出版社
ELSEVIER
DOI: 10.1016/j.indcrop.2021.113540
关键词
Cellulose; Acid-alcohol treatment; Molecular weight; Degradation rate; Crystallinity index; Cellulosic sugar
资金
- Ministry of Science and Technology, Taiwan [NSC 97-2313-B-451-002-MY2]
This study investigated the degradation of cotton and wood celluloses treated with hydrogen chloride in different media for different durations. The use of alcohols increased the cellulosic sugar content in the hydrolysate compared to water, but resulted in lower cellulose recovery rates. The crystallinity indices of celluloses changed slightly after degradation, and the weight-average degree of polymerization plateaued after a certain treatment time.
Degradation of cotton and wood celluloses treated with hydrogen chloride in different media at 65 degrees C for 1-120 h was studied. Results showed the use of alcohol increased the cellulosic sugar content of hydrolysate as compared to water. Additionally, the recovery of celluloses treated in alcohols was lower than that of water, particularly when using 2-propanol and 1-butanol. After degradation, the crystallinity indices of celluloses changed slightly, and increased with treatment duration. The initial degradation rates of celluloses were in the order of 1-butanol > methanol > 2-propanol > ethanol > water. However, the decreases in weight-average degree of polymerization (DPw) plateaued after approximately 72 h for cotton cellulose and 5 h for wood cellulose, and the DPw after 120 h treatment were in the range of 98-195 and 196-364 AGU (anhydrous glucose unit), respectively. This study demonstrates the acid-degradation extent of cellulose can be tailored by the selection of degradation medium. Moreover, the alcohols tend to increase the penetration of acid and consequently facilitate the degradation, especially by using alcohols with higher carbon numbers. Additionally, the vapor pressure effect of methanol at 65 degrees C improved the degradation of cellulose.
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