Bio-Ethanol Production from Wheat Straw Using Yeast Isolates

Microbial journal Pub Date : 2023-12-18 DOI:10.59411/jhp3pb09

Mesfin Wondaferew, Asmamaw Tesfaw

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Abstract

In the first hand, the cost of fossil fuel is increasing alarmingly. On the second hand, combustion of fossil fuels contributes for global warming. Therefore, it need to strength the production of renewable energies. The aim of this study was to produce bioethanol from wheat straw using yeast isolates. The isolates were isolated from decomposed soil, termite soil and rotten wood samples using yeast extract peptone dextrose media (YPD) and characterized chemically and morphologically. The wheat straws were powdered and hydrolyzed with dilute sulfuric acids. After neutralization, it was used to produce ethanol. Response surface methodology was employed to optimize the ethanol production process from wheat straws. The isolates were grown optimally at a temperature of 30oC, pH nearly 5, and sugar concentration 70 to 120 g/L. Among hydrolysis conditions, lower acid concentration (less than 1.5%) and temperature of 60oC resulted higher reducing sugars. The optimization study showed that the highest bio-ethanol concentration of 6.8g/l was observed by SWX under the optimum conditions of with 1% H2S04, 60oC temperature and 52.5-minute time hydrolysis at 30°C for 48 hour incubation time. Wheat straws could be good candidate for ethanol production.

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利用酵母菌从小麦秸秆中生产生物乙醇

首先，化石燃料的成本正在以惊人的速度增长。另一方面，化石燃料的燃烧会导致全球变暖。因此，需要加强可再生能源的生产。本研究的目的是利用酵母分离物从小麦秸秆中生产生物乙醇。使用酵母提取物蛋白胨葡萄糖培养基（YPD）从腐烂土壤、白蚁土壤和腐木样本中分离出酵母菌，并对其进行了化学和形态学鉴定。小麦秸秆被制成粉末并用稀硫酸水解。中和后用于生产乙醇。采用响应面方法对小麦秸秆乙醇生产过程进行了优化。在温度为 30oC、pH 值接近 5、糖浓度为 70 至 120 克/升的条件下，分离菌得到了最佳生长。在水解条件中，较低的酸浓度（小于 1.5%）和 60oC 的温度可产生较高的还原糖。优化研究表明，在 1%H2S04、60oC 温度和 52.5 分钟水解时间（30°C，培养 48 小时）的最佳条件下，SWX 的生物乙醇浓度最高，为 6.8 克/升。小麦秸秆是生产乙醇的理想原料。

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来源期刊

Microbial journal

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