Ethanol Production from Gmelina arborea Wood Wastes by Saccharomyces cerevisiae using Submerged Fermentation

M. Adedayo, A. Ajiboye, O. Yahaya
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Abstract

Lignocellulose wastes are the most abundant residues on the surface of the earth. This project studies the possibility of ethanol production from a forestry waste. Wood wastes from Gmelina arborea were treated with dillute sulfuric acid to break down the lignin component. Fermentation for ethanol production was done using baker’s yeast (Saccharomyces cerevisiae ATCC 204508/S288c) for 120 hours using submerged fermentation, and the pH, reducing sugar, specific gravity and lignin content were determined using standard techniques. Ethanol concentration and yield were measured via vinometer and ethanol standard curve techniques. From the results, the highest pH was obtained at 72 hours of the fermentation period. The reducing sugar content and specific gravity decreased over the fermentation time . The acid-pretreated wood wastes gave a maximum ethanol concentration of 3.84 % and a yield of 7.60 ml/g as measured from the vinometer and ethanol standard curve methods at 72 and 96 hours of fermentation, respectively. About 13.6% v/v of ethanol was recovered from the distillation process employed to separate the components of the product generated after fermentation. The observations in this research reveal the possibility of producing ethanol from G. arborea wood wastes and under optimized culture conditions. This could serve as an alternate means of biofuel generation and hence value addition to the wastes.
酿酒酵母菌深层发酵从小木材渣中生产乙醇
木质纤维素废料是地球表面最丰富的残留物。本项目研究利用林业废弃物生产乙醇的可能性。用稀硫酸处理木质素废弃物,分解木质素成分。采用面包酵母(Saccharomyces cerevisiae ATCC 204508/S288c)深层发酵120小时,采用标准技术测定pH、还原糖、比重和木质素含量。采用酒精度计和乙醇标准曲线法测定乙醇浓度和产率。结果表明,发酵72小时pH值最高。随着发酵时间的延长,还原糖含量和比重逐渐降低。在发酵72 h和96 h时,用酒精度法和乙醇标准曲线法测定的酸预处理木屑的最大乙醇浓度为3.84%,产率为7.60 ml/g。通过蒸馏分离发酵后产物的组分,回收了约13.6% v/v的乙醇。本研究结果揭示了在优化的培养条件下,利用木本废弃物生产乙醇的可能性。这可以作为生物燃料生产的一种替代手段,从而增加废物的价值。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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