科威特阿拉伯湾海水中用于生物燃料原料的原生海洋微藻的生物勘探

Bader Al-Hamar, Anandavalli. R Inbamani, Saad A. Komona, M. Fouzi, R. Ben-Hamadou, H. Pereira, A. Bumajdad
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引用次数: 0

摘要

生物勘探方案是增加目前可用于微藻生物技术不同应用的本地微藻菌株组合的关键。在这项工作中,对从科威特阿拉伯/波斯湾沿岸水域分离的9种快速生长的微藻菌株作为生物燃料原料的潜力进行了评估。18S rRNA基因测序结果显示,菌株分属5个属,分别为小球藻属(Chlorella)、Nannochloris、Scenedesmus、Tetraselmis和Nannochloropsis。总脂质含量方面,与其他菌株相比,库bs13g和库bs16g的脂质含量最高,分别为干重29.56%和26.13%,以棕榈酸和油酸为主。通过经验方程计算脂肪酸甲酯(FAMEs)的燃料性能与EN14214(欧洲)和ASTM D6751-−02(美国)生物柴油标准进行了比较。采用多准则决策分析(MCDA)方法,如富集评价偏好排序组织法(PROMETHEE)和交互式辅助图形分析(GAIA),根据微藻的生物柴油燃料特性选择合适的生物燃料原料。总体而言,结果表明,本地微藻菌株Tetraselmis,特别是Tetraselmis sp. KUBS37G和Scenedesmus sp. KUBS17R是最适合用于生物燃料原料的菌株,因为它们具有更好的燃料性能,如密度(ρ) (0.88 g cm−3),低运动粘度(3.1 mm2 s−1),高十六烷值(分别为54和56),高氧化稳定性(14.6和14.8小时),冷过滤器堵塞点(1.0°C和-6.1°C)。
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Bioprospecting autochthonous marine microalgae strain from the Arabian Gulf Seawater, Kuwait for biofuel feedstocks
Bioprospecting programmes are the key to increasing the current portfolio of indigenous microalgal strains accessible for different applications in microalgal biotechnology. In this work, nine fastgrowing microalgal strains isolated from the Arabian/Persian Gulf coastal waters of Kuwait were evaluated for their potential as biofuel feedstocks. 18S rRNA gene sequencing showed that the strains belong to five different genera, namely, Chlorella, Nannochloris, Scenedesmus, Tetraselmis, and Nannochloropsis. In terms of the total lipid content, in comparison to the other strains, Tetraselmis sp. KUBS13G and Tetraselmis sp. KUBS16G displayed higher lipid contents of 29.56% dry weight (DW) and 26.13% DW, respectively, which were dominated by palmitic and oleic acids. Fuel properties calculated from the fatty acid methyl esters (FAMEs) by empirical equations were compared with EN14214 (European) and ASTM D6751-−02 (American) biodiesel standards. Multicriteria decision analysis (MCDA) methods, such as the Preference Ranking Organization Method for Enrichment Evaluation (PROMETHEE) and Graphical Analysis for Interactive Assistance (GAIA), were used to select suitable microalgae for biofuel feedstock based on their biodiesel fuel properties. Overall, the results suggested that the indigenous microalgal strain Tetraselmis, in particular Tetraselmis sp. KUBS37G, and Scenedesmus sp. KUBS17R are the most suitable strains for biofuel feedstock owing to their improved fuel properties, such as density (ρ) (0.88 g cm−3), low kinematic viscosity (3.1 mm2 s−1), high cetane number (54 and 56, respectively), high oxidation stability (14.6 hr and 14.8 hr), and cold-filter plugging point (1.0°C and -6.1°C).
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来源期刊
Kuwait Journal of Science & Engineering
Kuwait Journal of Science & Engineering MULTIDISCIPLINARY SCIENCES-
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3 months
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