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稀酸催化蒸汽爆破预处理提高竹子糖化效果的研究
引用本文:赵宗凯,陈介南,张 林,詹 鹏.稀酸催化蒸汽爆破预处理提高竹子糖化效果的研究[J].中国农学通报,2015,31(4):264-268.
作者姓名:赵宗凯  陈介南  张 林  詹 鹏
作者单位:中南林业科技大学国家林业局生物乙醇研究中心,中南林业科技大学国家林业局生物乙醇研究中心,中南林业科技大学国家林业局生物乙醇研究中心,中南林业科技大学国家林业局生物乙醇研究中心
基金项目:基金项目:国家公益性行业科研专项“新型木本生物质能源资源培育及开发利用研究”(201004001);国家948项目“高活性纤维素酶菌株产酶优化技术引进”(2012-4-10);湖南省科学技术厅科技计划重点项目“木质纤维转化燃料乙醇高活性纤维素酶技术引进”(2011WK2001);常德市科学技术局技术研究与开发资金项目“木质纤维转化燃料醇高活性纤维酶技术引进”(2011GK06)。
摘    要:采用稀酸浸泡结合蒸汽爆破预处理方式,对竹子的糖化效果进行了条件筛选。对浸泡酸浓度、浸泡时间、蒸汽爆破压强及、爆破压力维持时间4个因素进行探索,以酶解得到的还原糖含量高低作为衡量指标。结果表明:在单因素实验中,最优条件与其对应的还原糖浓度分别为:浸泡酸浓度2.5%时,还原糖浓度39.4301 g/L;浸泡时间10 h时,还原糖浓度35.2116 g/L;蒸汽爆破压强2 MPa时,还原糖浓度31.7554 g/L;蒸汽爆破压力维持时间150 s时,还原糖浓度30.3634 g/L。通过正交试验优化并验证后,得到最优的预处理条件:常温条件下,将竹子浸泡在2.5%的硫酸中8 h,于压强2 MPa的蒸汽爆破装置中维持180 s后爆破,可以得到最高的还原糖产量42.3707 g/L,且上述单因素影响主次顺序为:浸泡酸浓度浸泡时间压力维持时间爆破压强。

关 键 词:竹子  稀酸浸泡  蒸汽爆破  预处理
收稿时间:2014/3/11 0:00:00
修稿时间:2014/11/18 0:00:00

Study on Diluted Acid-catalyzes Steam Explosion Pretreatment to Enhance the Saccharification of Bamboo
Zhao Zongkai,Chen Jienan,Zhang Lin and Zhan Peng.Study on Diluted Acid-catalyzes Steam Explosion Pretreatment to Enhance the Saccharification of Bamboo[J].Chinese Agricultural Science Bulletin,2015,31(4):264-268.
Authors:Zhao Zongkai  Chen Jienan  Zhang Lin and Zhan Peng
Institution:Bioethanol Research Center Attached to State Administration of Forestry, Central South University of Forestry and Technology,Bioethanol Research Center Attached to State Administration of Forestry, Central South University of Forestry and Technology,Bioethanol Research Center Attached to State Administration of Forestry, Central South University of Forestry and Technology,Bioethanol Research Center Attached to State Administration of Forestry, Central South University of Forestry and Technology
Abstract:Pretreatment with diluted acid soaking and steam explosion were conducted for condition selection of bamboo saccharification effect. Using the content of revertose as measurement index, the author explored the concentration of diluted acid, soaking time, intensity pressure of steam explosion and the hold time of explosion pressure. The results showed that under the single factor experiment, the optimal condition and its corresponding revertose concentration were: when the soaking acid concentration was 2.5%, the concentration of revertose was 39.4301 g/L; when the soaking time was 10 h, the concentration of revertose was 35.2116 g/L; when the explosion pressure was 2 MPa, the concentration of revertose was 31.7554 g/L; when the hold time of explosion pressure was 150 s, the concentration of revertose was 30.3634 g/L. The optimal pretreatment condition obtained after orthogonal experiment: under room temperature, the bamboo was soaked in 2.5% vitriol for 8 h, and exploded after treated 180 s in 2 MPa steam explosion device. The highest output of revertose was 42.3707 g/L. And the primary and secondary order of the factors was the concentration of soaking acid> soaking time> the hold time of pressure> the pressure of explosion.
Keywords:bamboo  dilute acid soak  steam explosion  pretreatment
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