微藻小球藻、螺旋藻和四螺藻生物质生物柴油潜力的NMR和GC-MS研究

A. S. Sarpal, I. Costa, C. Teixeira, D. Filócomo, C. Renata, P. R. M. Silva, V. Cunha, R. J. Daroda
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引用次数: 36

摘要

藻类中性油(单、二、甘油三酯)的详细成分分析;通过核磁共振(1H, 13C)和气相色谱-质谱(GC-MS)技术研究了游离脂肪酸和极性(甘油/磷酸)脂,以及它们的脂肪酸谱,包括多不饱和脂肪酸(PUFAs) (C18:3, C22:6),以探索其生物柴油的潜力。采用超声波溶剂萃取法对实验室培养的微藻生物质进行萃取,得到藻油。结果表明,培养基(改性RM6、F/2、WC)、微藻种/菌株(小球藻、扁桃螺旋藻和affchutetraselmis)和培养体系形状(Erlenmeyer瓶、聚乙烯管或圆形容器)对生物量和中性脂产量以及饱和和不饱和脂肪酸的质量和组成均有影响。在F/2和WC培养基中,用较便宜的肥料源(过磷酸钙+智利盐碱)替代氮、磷源,不影响中性脂产量,反而产生了二十二碳六烯酸(DHA)含量较低的fam。与其他生物质(61.2 ~ 69.8% w/w)相比,在改性的RM6培养基中培养的螺旋藻生物量含有较少的不含DHA的不饱和脂肪酯(42.9% w/w) (PUFA为E¤-亚油酸),因此非常适合生产氧化稳定性高、十六烷值高的生物柴油。在培养系统中,由生物质产生的藻油是生产生物柴油和DHA和α, γ -亚麻酸的有前景的原料。基于1H NMR技术开发的快速、经济的分析策略将有助于藻类培养者筛选品种和优化培养参数,从而生产出可选择的产品,从而在一定程度上降低生物柴油的生产成本。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Investigation of Biodiesel Potential of Biomasses of Microalgaes Chlorella, Spirulina and Tetraselmis by NMR and GC-MS Techniques
The detailed component analyses of algal oils such as neutral (mono, di and triglycerides; free fatty acids) and polar (glyceroglyco/phospho) lipids, and their fatty acid profile including poly unsaturated fatty acids (PUFAs) (C18:3, C22:6) have been carried out by NMR (1H, 13C) and GC-MS techniques to explore their biodiesel potential. The algal oils were obtained by ultrasonic solvent extraction of microalgae biomasses cultivated on a lab scale. The results revealed that biomass and neutral lipids productivity as well as quality and composition of saturated and unsaturated fatty acid were influenced by media (modified RM6, F/2, WC), microalgae species/strains (Chlorella vulgaris, Spirulina platensi and Tetraselmis affchuii) and shape of the cultivated system (Erlenmeyer flask, polythene tubular or round container). The replacement of source of N and P with cheaper source of fertilizers (super phosphates + Chillean salt peter) in the cultivation media F/2 and WC has not affected the neutral lipid productivity, rather produced FAMEs with lower amount of Docosahexaenoic acid (DHA). The biomass cultivated in the modified RM6 media by Spirulina platensi is comprised of lower amount of unsaturated fatty esters without DHA (42.9% w/w) (PUFA as E¤-linoleic) compared to other biomasses (61.2-69.8 %w/w), thus quite suitable for production of biodiesel with higher oxidation stability and higher cetane number. The algal oils generated from the biomasses in the cultivation system are promising feed stocks for biodiesel and value added products DHA and α, γ -linolenic acids. The developed fast and cost effective analytical strategy based on 1H NMR techniques will facilitate algae cultivators for screening of species and optimization of cultivation parameters to produce a choice of product, thus contribute partly in the overall reduction in the cost of production of biodiesel.
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