WASTE-FREE TECHNOLOGY OF CHLORELLA SOROKINIANA MICROALGAE BIOMASS USAGE FOR LIPIDS AND SORBENTS PRODUCTION

IF 0.6 Q4 CHEMISTRY, MULTIDISCIPLINARY
N. A. Politaeva, Irina V. Atamanyuk, Yuliya А. Smyatskaya, T. A. Kuznetsova, Toumi Amira, P. Razgovorov
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引用次数: 2

Abstract

In the present article we introduce application areas of Сhlorella sorokiniana microalgae biomass for national economy (feed and biologically active additives, etc). Here it is shown that thermal and chemical modification of plant material waste might result in obtaining of highly-efficient materials for water purification. Major stages of waste-free technology of microalga processing with further extraction of valuable lipids and obtaining of sorption materials are schematically shown. We have determined fatty-acid content of lipid fraction (77 mg/g), obtained by Soxhlet method from lyophilized microalga biomass. It was revealed, that it includes 83.7% of unsaturated fatty acids (generally, С18:1, С18:2, С18:3), whereas saturated fatty acids are mostly presented by С16 – С20 family. In lyophilized biomass we discovered α-linolenoic acid (Omega-3, 28.3%), which is one of the most valuable biologically active compounds, required for full-value human life and activities. Microstructure analysis of residual biomass of C. sorokiniana microalgae has shown pore surface, formed by destroyed cells. In the course of studying the sorption properties of residual biomass with the use of initial and final concentration parameters, the efficiency of purification of model water from Fe3+ ions (47.5%) was evaluated, which indicates the need to modify the sorption properties of biomass. It has been established that the degree of wastewater purification containing iron (III) compounds can be significantly increased (by 1.8 times) by forming from the residual biomass granular materials with additional introduction of chitosan in the composition, which using as a binder and a modifying additive (mass ratio 4:1).
利用小球藻微藻生物质生产脂类和吸附剂的无废弃物技术
本文介绍了草藻微藻生物质在国民经济中的应用领域(饲料和生物活性添加剂等)。本文表明,对植物材料废物进行热改性和化学改性可能会获得高效的水净化材料。示意性地显示了微藻加工的无废物技术的主要阶段,包括进一步提取有价值的脂质和获得吸附材料。我们已经测定了通过索氏法从冷冻干燥的微藻生物质中获得的脂质部分(77mg/g)的脂肪酸含量。研究表明,它包含83.7%的不饱和脂肪酸(通常为С18:1、С18:2、С18:3),而饱和脂肪酸主要由С16–С20家族提供。在冻干生物质中,我们发现了α-亚麻酸(Omega-3,28.3%),它是最有价值的生物活性化合物之一,是人类生命和活动全价值所必需的。对索氏藻微藻残余生物量的微观结构分析表明,孔表面是由破坏的细胞形成的。在使用初始和最终浓度参数研究残余生物质吸附性能的过程中,评估了Fe3+离子对模型水的净化效率(47.5%),这表明有必要改变生物质的吸附性能。已经证实,通过在组合物中额外引入壳聚糖,将其用作粘合剂和改性添加剂(质量比4:1),由残余的生物质颗粒材料形成,可以显著提高含铁(III)化合物的废水净化程度(提高1.8倍)。
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
CiteScore
1.40
自引率
44.40%
发文量
83
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