An integrated approach to optimization of fermentation conditions for bioethanol production from local leftover Injera waste using central composite design

IF 1.3 Q4 ENVIRONMENTAL SCIENCES Environmental Health Engineering and Management Journal Pub Date : 2022-09-12 DOI:10.34172/ehem.2022.29
Abreham Bekele Bayu, D. A. Akuma, Ketema Beyecha Hundie
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Abstract

Background: Bioconversion of lignocelluloses to biofuel from cheap non-edible materials such as local leftover Injera waste for renewable energy is very important and minimizes environmental pollution. Local leftover Injera is an abundant, inexpensive, reusable waste to the environment, containing a sufficient amount of carbohydrate material, which is the best source of fermentable sugars. Methods: In this study, local leftover Injera was treated followed by drying, acidic hydrolysis, and alcoholic fermentation. Besides, the optimization of the fermentation process was done using a central composite box Behnken design. The process included physical and chemical pre-treatment of biomass, which was then followed by acid hydrolysis as a potential step. The scarification and fermentation methods were analyzed to acquire the maximum yield of ethanol. The local leftover Injera waste was pretreated with sulfuric acid and sodium hydroxide solutions. The effect of temperature, substrate concentration, as well pH on bioethanol production was optimized and studied. The optimization process was performed under special condition (temperature=25-40°C, pH=3-5, and substrate concentration=50-200 mg/L). Results: The maximum product of ethanol was achieved at a temperature of 32.718°C, substrate concentration of 125 g/L, and a pH of 4 with a maximum ethanol yield of 42.598%. Conclusion: According to the results, the optimum fermentation conditions for bioethanol production from local leftover Injera waste are the points where the maximum product of ethanol was achieved at a temperature of 32.718°C, substrate concentration of 125 g/L, and a pH of 4.
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利用中央复合设计优化当地剩余Injera废料生产生物乙醇发酵条件的综合方法
背景:将廉价的非食用材料(如当地剩余的英杰拉废物)转化为生物燃料是非常重要的,并且可以最大限度地减少环境污染。当地剩余的英杰拉是一种丰富、廉价、可重复使用的环境废物,含有足够数量的碳水化合物物质,是可发酵糖的最佳来源。方法:采用干燥、酸水解、酒精发酵等工艺处理地方性剩馀英属菊。采用中央复合箱Behnken设计对发酵工艺进行了优化。该过程包括生物质的物理和化学预处理,然后酸水解作为一个潜在的步骤。为获得乙醇的最大产率,对刻蚀法和发酵法进行了分析。用硫酸和氢氧化钠溶液对当地的英杰拉废渣进行预处理。优化研究了温度、底物浓度和pH对生物乙醇生产的影响。优化过程在特定条件下进行(温度=25-40℃,pH=3-5,底物浓度=50-200 mg/L)。结果:在温度为32.718℃、底物浓度为125 g/L、pH = 4条件下,乙醇收率最高为42.598%。结论:在发酵温度为32.718℃、底物浓度为125 g/L、pH = 4的条件下,本地英吉拉废渣发酵生产生物乙醇的最佳条件为乙醇产量最大值。
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来源期刊
CiteScore
2.40
自引率
37.50%
发文量
17
审稿时长
12 weeks
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