Utilization of n-Hexane as Co-Solvent to Increase Bibdiesel Yield on Direct Transesterification Reaction from Marine Microalgae

机译：用正己烷利用N-己烷作为共溶剂，以增加海洋微藻直接酯交换反应的Bibdiesel产量

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Direct transesterification reaction requires optimization of reaction conditions due to both the lipid extraction and lipid transesterification reactions that occur at the same place and time. Co-solvent utilization is considered as one of some ways to improve the yield in the direct transesterification reaction. In this study, transesterification was done directly on the marine microalgae biomass Nannochloropsis sp. Design variations in this research including the volume ratio of methanol: n-hexane, the molar ratio of lipid: methanol, and reaction time. From these variations, the volume ratio of methanol: n-hexane 1:1, molar ratio of lipid:methanol 1:400, and reaction time 4 hours can increase biodiesel yield until 90.9% for Nannochloropsis sp. FAME contents were analyzed by Gas Chromatography and Mass Spectroscopy (GCMS). Saturated fatty acid content is more dominant on biodiesel reached 52.72%.

机译：直接酯交换反应需要优化反应条件，这两种脂质萃取和脂质酯交换反应都发生在同一个地方和时间。共溶剂利用被认为是提高直接酯交换反应中产量的途径中的一种。在这项研究中，酯交换是直接在海洋微藻生物量Nannchloropsis Sp上进行的。本研究的设计变化包括甲醇的体积比：正己烷，脂质的摩尔比：甲醇和反应时间。从这些变化，甲醇的体积比：正己烷1：1，脂质的摩尔比：甲醇1：400，反应时间4小时可以增加生物柴油产率，直至Nannchloropsis sp的90.9％。通过气相色谱和质谱（GCMS）分析FAME含量。饱和脂肪酸含量在生物柴油上更占优势达到52.72％。

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《Basic Researches in the Tropical and Costal Region Eco Developments Conference》|2015年||共9页
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Dianursanti; Pijar Religia; Anondho Wijanarko;
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中图分类环境规划与环境管理;
关键词
Biodiesel; co-solvent; direct transesterification; Nannochloropsis sp; n-hexane;

机译：生物柴油;共溶剂;直接酯交换;Nannchloropsis sp;n-己烷;

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2. Supercritical transesterification of microalgae triglycerides for biodiesel production: Effect of alcohol type and co-solvent [J] . Tobar Maira, Nunez Gonzalo A. The Journal of Supercritical Fluids . 2018,第期

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4. Utilization of n-Hexane as Co-Solvent to Increase Bibdiesel Yield on Direct Transesterification Reaction from Marine Microalgae [C] . Dianursanti, Pijar Religia, Anondho Wijanarko Basic Researches in the Tropical and Costal Region Eco Developments Conference . 2015

机译：用正己烷利用N-己烷作为共溶剂，以增加海洋微藻直接酯交换反应的Bibdiesel产量
5. Biodiesel synthesis via transesterification reaction in supercritical methanol: a) A kinetic study, b) Biodiesel synthesis using microalgae oil. [D] . Liu, Jiuxu. 2013

机译：在超临界甲醇中通过酯交换反应合成生物柴油：a）动力学研究，b）使用微藻油合成生物柴油。
6. Direct Biodiesel Production from Wet Microalgae Biomass of Chlorella pyrenoidosa through In Situ Transesterification [O] . Hechun Cao, Zhiling Zhang, Xuwen Wu, 2006

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7. Utilization of n-Hexane as Co-solvent to Increase Biodiesel Yield on Direct Transesterification Reaction from Marine Microalgae [O] . Dianursanti, Religia Pijar, Wijanarko Anondho 2015

机译：利用正己烷作为助溶剂提高海洋微藻直接酯交换反应的生物柴油收率

Utilization of n-Hexane as Co-Solvent to Increase Bibdiesel Yield on Direct Transesterification Reaction from Marine Microalgae

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