Potential of Macroalgae Ulva lactuca as a Source Feedstock for Biodiesel Production.

Q1 Agricultural and Biological Sciences
Hanaa H Abd El Baky, Gamal S El Baroty
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引用次数: 6

Abstract

Background: The aim of this study was to investigate the possibility of growing of algae Ulva lactuca L.under different salinity levels coupled with varied KNO3 concentrations (source of N) as a potential source of oil for biodiesel production.

Methods: U. lactuta was cultured in 10.0% NaCl coupled with either 2.5 g/L (S1+ 1N) or 1.0 g/L KNO3 (S1+ 2N) and in 30.0% NaCl coupled with 2.5 g/L (S2+ 1N) or 1.0 g/L KNO3 (S2+ 2N) nutrient medium. Among all algae cultures, biomass (dry weight) and lipid accumulation (total lipid content, TL) were significantly different (P>0.5%), with various degrees. The TL was increased (8.21% to 15.95%, g/100g) by increasing the NaCl % (from 10% to 30%) coupled with the depletion of KNO3 level (from 2.5% to 1%) in culture medium. High lipid content (15.95%) was obtained in S2+ 2N culture, this lipid showed physical (density, viscosity and average molecular weight) and chemical (iodine, acid, saponification and peroxide values) properties suitable for biodiesel production.

Results: The fatty acid methyl esters (FAME, biodiesel) prepared by trans-esterifiction reaction under acidic condition were mainly composed of saturated (50.33%), monounsaturated (MUFA, 36.12%) and polyunsaturated (13.55%) esters. C-18:1 was found to be the main MUFA, representing 25.76% of total FAME. On the other hand, the values of some critical of physiochemical parameter (density, kinematic viscosity, iodine value, acid value and oxidation stability) of biodiesel were found to meet the standards for a high quality biodiesel.

Conclusion: Hence, U. lactuta could be serving as a valuable renewable biomass of oil for biodiesel production. There are recent patents also suggesting use of oil of U. lactuta marine biomass for biodiesel production.

大型海藻Ulva lactuca作为生物柴油原料的潜力。
背景:本研究的目的是探讨在不同盐度水平和不同KNO3浓度(N源)条件下,海藻Ulva lactuca l.s生长的可能性,作为生产生物柴油的潜在油源。方法:乳乳杆菌在10.0% NaCl + 2.5 g/L (S1+ 1N)或1.0 g/L KNO3 (S1+ 2N)培养基和30.0% NaCl + 2.5 g/L (S2+ 1N)或1.0 g/L KNO3 (S2+ 2N)培养基中培养。在所有培养物中,生物量(干重)和脂质积累(总脂质含量,TL)均有不同程度的显著差异(P>0.5%)。将培养基中NaCl浓度从10%提高到30%,同时降低KNO3浓度(从2.5%降低到1%),可使TL提高8.21% ~ 15.95% (g/100g)。在S2+ 2N培养基中获得了高脂质含量(15.95%),该脂质具有适合生产生物柴油的物理(密度、粘度和平均分子量)和化学(碘、酸、皂化和过氧化值)特性。结果:酸性条件下反式酯化反应制备的脂肪酸甲酯(FAME,生物柴油)主要由饱和(50.33%)、单不饱和(MUFA, 36.12%)和多不饱和(13.55%)酯组成。发现C-18:1是主要的MUFA,占总FAME的25.76%。另一方面,生物柴油的一些关键理化参数(密度、运动粘度、碘值、酸值和氧化稳定性)的值符合高质量生物柴油的标准。结论:乳曲霉可作为一种有价值的可再生生物质油脂用于生物柴油的生产。最近也有一些专利建议使用海洋生物油来生产生物柴油。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Recent patents on food, nutrition & agriculture
Recent patents on food, nutrition & agriculture Agricultural and Biological Sciences-Agronomy and Crop Science
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