The production bioethanol from Ceratophyllum demersum L . in Iraq

Dmoua Kamil, H. M. Kredy
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Abstract

Biofuels have attracted a lot of attention due to the growing demand for energy resources and concerns about greenhouse gas emissions. Unlike other green energy resources, biofuels like bioethanol, can provide liquid fuels that is essential for transportation. Second-generation bioethanol can be produced from lignocellulosic biomass through acid hydrolysis and fermentation. Lignocellulosic biomass is widely available and does not affect on the nutritional needs of agricultural crops. In this study, the aquatic plant Ceratophyllum demersum was used. Ceratophyllum demersum is a type of invasive aquatic plant that can live in fresh and brackish waters, and it is abundant in most regions of southern Iraq. The bioethanol with the highest concentration was identified by high-performance liquid chromatography (HPLC). The results showed that 14% of bioethanol was produced in the absence of acid hydrolysis, while the concentration of it increased to 25% with the presence of acid hydrolysis. Acid hydrolysis aims to increase the breaking bonds of lignin and hemicellulose, increase the porosity of the material, and damage the crystalline structure of cellulose, and thus facilitates its conversion to glucose and increases the percentage of ethanol production.
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在伊拉克从 Ceratophyllum demersum L .
由于对能源的需求日益增长以及对温室气体排放的担忧,生物燃料引起了广泛关注。与其他绿色能源不同,生物燃料(如生物乙醇)可以提供运输所必需的液体燃料。第二代生物乙醇可以通过酸水解和发酵从木质纤维素生物质中生产出来。木质纤维素生物质来源广泛,而且不会影响农作物的营养需求。本研究使用了水生植物 Ceratophyllum demersum。Ceratophyllum demersum 是一种入侵性水生植物,可生活在淡水和咸水中,在伊拉克南部大部分地区都有大量种植。高效液相色谱法(HPLC)鉴定了浓度最高的生物乙醇。结果表明,在不进行酸水解的情况下,生物乙醇的生产量为 14%,而在进行酸水解的情况下,生物乙醇的生产量增加到 25%。酸水解的目的是增加木质素和半纤维素的断裂键,增加材料的孔隙率,破坏纤维素的结晶结构,从而促进其转化为葡萄糖,提高乙醇的生产比例。
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