Cosme Sagbo Kouwanou, C. P. A. Dossa, E. S. Adjou, Mossi Issiakou, V. Wotto, D. C. Sohounhloué
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引用次数: 1
摘要
本研究旨在通过酶解和发酵生产第二代生物乙醇,使南菇茎增值。在以尿素(CON2H4)为生长因子的条件下,对三种酿酒酵母菌株(Angel牌耐热酒精活性干酵母、Angel牌超酒精活性干酵母和Angel牌超酒精活性干酵母)的发酵动力学参数,如pH值、密度、发酵时间和糖度等的监测表明,这些参数在发酵过程中有很大的变化。发酵后的蒸馏蒸馏得到的乙醇提取率(20℃时% v / v)在4.95 ~ 44.93之间。安琪牌超醇活性干酵母的乙醇生物转化性能最佳。该菌株可作为一种有效的发酵菌,用于利用南菇茎集约生产第二代生物乙醇。
Valorization of Typha Australis Stems in Bioethanol Production Using Enzymatic Hydrolysis and Biofermentation
The present study aims to valorize the Typha australis stems, through second-generation bioethanol production using enzymatic hydrolysis and fermentation. The monitoring of fermentation kinetics parameters, such as pH, density, length of fermentation, and the Brix, indicated a great variability of these parameters during the fermentation process of the must with three Saccharomyces cerevisiae strains, such as Angel brand Thermal-tolerant alcohol active dry yeast, Angel brand super alcohol active dry yeast and Angel super alcohol active dry yeast in the presence of urea (CON2H4) used as a growth factor. The distillation of musts after fermentation has yielded ethanol extraction rate (% v / v at 20 ° C) between 4.95and 44.93 after fractional distillation. The best performance in ethanolic bioconversion was recorded with Angel brand super alcohol active dry yeast. This Saccharomyces cerevisiae strains could be used as effective ferments, in perspective of intensive production of second-generation bioethanol with Typha australis stems.
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