纤维素科学与技术
纖維素科學與技術
섬유소과학여기술
JOURNAL OF CELLULOSE SCIENCE AND TECHNOLOGY
2010年
1期
24-28
,共5页
蒋崇文%肖豪%邓慧东%张煜%饶猛
蔣崇文%肖豪%鄧慧東%張煜%饒猛
장숭문%초호%산혜동%장욱%요맹
纤维素%麦秸杆%金属离子%水解
纖維素%麥秸桿%金屬離子%水解
섬유소%맥갈간%금속리자%수해
cellulose%wheat straw%metal ion%hydrolysis
以小麦秸秆为原料,采用正交试验考察了硫酸浓度、Fe~(2+)浓度、反应温度和反应时间等因素对稀酸水解纤维素的还原糖得率的影响,得到了优化的纤维素水解反应工艺组合:反应温度180℃,Fe~(2+)浓度0.0375 mol/L,硫酸质量分数1%,反应时间90 min.研究了Fe~(2+)、Ni~(2+)、Na~+、Mg~(2+)四种金属离子对稀酸水解纤维素制备还原糖的影响,结果表明,金属离子能明显提高稀酸水解纤维素的转化率和还原糖得率,其助催化作用的大小依次为;Fe~(2+) >Na~+ >Ni~(2+) >Mg~(2+),Fe~(2+)对稀酸水解小麦秸秆制备还原糖的催化效果最佳,还原糖得率最高可达73.05%,纤维素转化率达到85.79%.
以小麥秸稈為原料,採用正交試驗攷察瞭硫痠濃度、Fe~(2+)濃度、反應溫度和反應時間等因素對稀痠水解纖維素的還原糖得率的影響,得到瞭優化的纖維素水解反應工藝組閤:反應溫度180℃,Fe~(2+)濃度0.0375 mol/L,硫痠質量分數1%,反應時間90 min.研究瞭Fe~(2+)、Ni~(2+)、Na~+、Mg~(2+)四種金屬離子對稀痠水解纖維素製備還原糖的影響,結果錶明,金屬離子能明顯提高稀痠水解纖維素的轉化率和還原糖得率,其助催化作用的大小依次為;Fe~(2+) >Na~+ >Ni~(2+) >Mg~(2+),Fe~(2+)對稀痠水解小麥秸稈製備還原糖的催化效果最佳,還原糖得率最高可達73.05%,纖維素轉化率達到85.79%.
이소맥갈간위원료,채용정교시험고찰료류산농도、Fe~(2+)농도、반응온도화반응시간등인소대희산수해섬유소적환원당득솔적영향,득도료우화적섬유소수해반응공예조합:반응온도180℃,Fe~(2+)농도0.0375 mol/L,류산질량분수1%,반응시간90 min.연구료Fe~(2+)、Ni~(2+)、Na~+、Mg~(2+)사충금속리자대희산수해섬유소제비환원당적영향,결과표명,금속리자능명현제고희산수해섬유소적전화솔화환원당득솔,기조최화작용적대소의차위;Fe~(2+) >Na~+ >Ni~(2+) >Mg~(2+),Fe~(2+)대희산수해소맥갈간제비환원당적최화효과최가,환원당득솔최고가체73.05%,섬유소전화솔체도85.79%.
It was investigated that wheat straw was hydrolyzed catalyzed by dilute sulfuric acid by using orthogonal experiments. The optimal combination of factors was that the sulfuric acid concentration was 1%(w%), the Fe~(2+) concentration was 0.0375 mol/L, the temperature was 180℃ and the residence time was 90 min. The effects of Fe~(2+), Ni~(2+), Na~+ and Mg~(2+) on the yield of sugar and conversion of cellulose were investigated. It showed that all the metal ions had obviously increased the yield of sugar and the conversion of cellulose in the order: Fe~(2+) >Na~+ >Ni~(2+) >Mg~(2+). There was a maximum as Fe~(2+) was added, which the yield of sugar and the conversion of cellulose reached 73.05% and 85.79%, respectively.
