Evaluation of Plantain Biomass (Musa paradisiaca L.), as Feedstock for Bio-Ethanol Production

H. O. Ogunsuyi, Christiana Aanu Olawale
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Abstract

This study investigated the viability of post-harvested plantain biomass as a promising feedstock for the production of Bioethanol. The properties of the derived bio-ethanol were determined to examine its suitability as a promising and sustainable alternative to petroleum-based ethanol The research revealed that Plantain biomass is made up of Lignocellulosic contents such as extractive, Lignin, cellulose, hemicelluloses, ash and moisture in different proportions. The different parts of the biomass such as the flower, stem and leaves were hydrolyzed using H2SO4. Optimum hydrolysis conditions of 6%w/v acid concentration, 30 min contact time and 80°C working temperature were established for Plantain stem and flower. However, hydrolysis of Plantain leaves was at the best under the experimental conditions of acid concentration (10% w/v), contact time (120 min) and temperature (120°C). The highest yield of the bio-ethanol produced was obtained from Plantain stem biomass with a record of 8.04% followed by Plantain flower with a yield of 7.73% and 757% from Plantain leaves The hydrolyzate was fermented using Baker’s yeast (Saccharomyces cerevisiae) at a room temperature of 25°C and pH of 4.5 for 4 D. The structural determination of the derived bioethanol was conducted using FT-IR analysis and the fuel properties were found to be consistent with those of the conventional ethanol. The SEM analysis conducted on the post hydrolysed biomass confirmed the effectiveness of the hydrolysis scheme adopted as evident on the surface morphology of the biomass. This study confirmed the viability of Plantain biomass as promising feedstock for Bio-ethanol production under the established hydrolysis conditions.
车前草生物质作为生物乙醇原料的评价
本研究探讨了收获后车前草生物量作为生产生物乙醇的有前途的原料的可行性。研究表明,车前草生物质由不同比例的提取物、木质素、纤维素、半纤维素、灰分和水分等木质纤维素成分组成。利用H2SO4对花、茎、叶等生物质的不同部位进行水解。确定了车前草茎和花的最佳水解条件为6%w/v的酸浓度、30 min的接触时间和80℃的工作温度。而在酸浓度(10% w/v)、接触时间(120 min)和温度(120℃)的实验条件下,车前草叶的水解效果最好。获得最高产量生产的生物乙醇从车前草茎生物量创纪录的8.04%,其次是车前草花从车前草的叶子与收益率为7.73%和757%的水解产物利用面包酵母发酵(酿酒酵母)的室温25°C和pH值为4.5 4 d的结构确定衍生生物乙醇进行使用傅立叶变换红外光谱分析和燃料特性被发现是一致的与传统乙醇。对水解后的生物质进行的SEM分析证实了所采用的水解方案的有效性,从生物质的表面形貌上可以看出。本研究证实了车前草生物质在既定的水解条件下作为生物乙醇生产原料的可行性。
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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