T. Al-Someidae, Yousef Al-Shahery , Qutaiba Al-Nema
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引用次数: 0
摘要
藻类生物燃料被认为是化石燃料的替代来源。近几十年来,为了避免诸如煤和石油等传统能源的枯竭,能源的使用有了显著的增加。与其他蔬菜作物相比,藻油生产的燃料具有重要的特性。这是由于开发生命周期短,发展迅速,容易被开发。本研究以三种微藻为研究对象,在一个5升的光生物反应器中培养了双形小球藻、普通小球藻和腐殖质绿球藻。对三种藻类的干生物量生产力进行了估算,并对总脂肪进行了化学分析,以检测其生物含量并对脂肪酸进行诊断。结果表明,两种植物的生物量均最高,为1.58 g l(干重),总脂肪产量最高,为29.6%(总脂肪产量)。利用GLC对脂肪进行表征的结果表明,双形棘球藻产生的分分体酸酯(C14: 0)的饱和脂肪酸比例最高,为47%,丝氨酸酸酯(C24: 0)的饱和脂肪酸比例最高,为7.194%。而普通小球藻和Chlo。Humicola的饱和脂肪酸含量较低。这表明从S. dimorphus中提取的藻类油适合用于合成脂肪酸,而脂肪酸是生产生物燃料的主要来源。
Investigation of Important Fatty Acids in Biofuel Production From Number of Microalgae
Algae biofuels is considered as an alternative source to fossil fuels. In recent decades, there was a significant increase in the use of energy sources in order to avoid the depletion of traditional sources such as coal and petroleum. The produced fuel from algal oil had important characteristics compared to that from other vegetable crops. This is due to the short life cycle of development, a fast-growing and easy to be developed. In this study, three types of micro-algae Scendesmus dimorphus, Chlorella vulgaris and Chlorococcum humicola were used and grown in in a 5 liter photobioreactor. The dry biomass productivity of the three algae was estimated, and then a chemical analysis of the total fatty was performed to detect their biological contents as well as diagnose the fatty acid. Results showed that S. dimorphus produced the highest levels in both biomass, 1.58 g l from dry weight and estimation of the total fat indicated C. vulgaris has the highest total fat yield, at 29.6 %. Results of fats characterization using )GLC) showed that S. dimorphus produced the high percentage of saturated fatty acids for the meristic acid ester (C14: 0) by 47% and the lincoseric acid ester (C24: 0) was 7.194%. In contrast, both Chlorella vulgaris and Chlo. humicola showed less level of saturated fatty acids. This indicates the suitability of algae oil derived from S. dimorphus in the synthesis of fatty acid, a major source in producing biofuels.