肯尼亚高粱秸秆浓硫酸水解发酵制糖工艺的优化

W. Ngigi, Z. Siagi, Anil Kumar, Moses Arowo
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引用次数: 0

摘要

高粱秸秆是农业残留物,可以水解成可发酵的糖,可用于生产生物乙醇,这是一种可再生能源。为了从木质纤维素生物质如高粱秸秆中生产生物乙醇,涉及包括水解在内的几个过程。然而,木质纤维素生物质用于生物乙醇生产受到水解过程中获得的可发酵糖的低产量的阻碍。缺乏关于木质纤维素生物质水解的最佳条件的足够信息导致了低效的过程,阻碍了大规模生物乙醇生产的经济可行性。本研究的目的是优化高粱秸秆浓硫酸水解的反应条件。在水解过程中,不同的条件包括温度(40°C - 80°C)、时间(30-90分钟)和酸浓度(30%-70%,w / w)。采用中心复合旋转式设计优化并确定最佳水解条件。采用响应面法和方差分析对结果进行解释。结果表明,当水解温度为60℃,水解时间为60 min,硫酸浓度为50%时,葡萄糖的最高产率为87.54% (w / w)。当水解温度为60℃,水解时间为60 min,硫酸浓度为16.36% (w / w)时,葡萄糖的最低产率为45.59% (w / w)。用浓硫酸水解高粱秸秆,可获得高产量的发酵糖。这些结果表明,高粱秸秆是生产可发酵糖的可行底物。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Optimization of Concentrated Sulphuric Acid Hydrolysis of Gadam Sorghum Stalks Found in Kenya for Fermentable Sugar Production
Gadam sorghum stalks are agricultural residues which can be hydrolyzed into fermentable sugars that can be used to produce bioethanol which is a renewable source of energy. In order to produce bioethanol from lignocellulosic biomass such as Gadam sorghum stalks, several processes including hydrolysis are involved. However, the use of lignocellulosic biomass for bioethanol production is hindered by the low yield of fermentable sugars obtained during hydrolysis. The lack of sufficient information on optimal conditions governing hydrolysis of lignocellulosic biomass leads to inefficient process which hinders the economic viability of large-scale bioethanol production. The objective of this study was to optimize reaction conditions involved in concentrated sulphuric acid hydrolysis of Gadam sorghum stalks. During hydrolysis, the conditions that were varied included temperature (40°C–80°C), time (30-90 minutes), and concentration of acid (30%-70%, w / w ). Central composite rotatable design was used to optimize and establish optimum level of hydrolysis conditions. Response surface methodology and analysis of variance were used to interprete the results. The results of hydrolysis revealed that the highest yield of glucose was 87.54% ( w / w ) which was realized at 60°C hydrolysis temperature, 60 minutes hydrolysis period, and 50% ( w / w ) concentration of sulphuric acid. In addition, the lowest glucose yield was 45.59% ( w / w ) which was realized at 60°C hydrolysis temperature, 60 minutes hydrolysis period, and 16.36% ( w / w ) sulphuric acid concentration. Concentrated sulphuric acid hydrolysis of Gadam sorghum stalks results in high yield of fermentable sugars. These results reveal that Gadam sorghum stalks are viable substrates for the production of fermentable sugars.
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