Mass transfer intensification in bioactive compounds recovery by alternative extraction methods: effects of solvent

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引用次数: 7

Abstract

Recently, the exploration of new alternatives to common organic solvents in combination with non-conventional energy sources is a subject of intense research and development as tools for green extraction of plant-derived natural products. This paper deals with the use of low frequency ultrasound (100 W, 32 kHz) and pulsed electrical fields (0.86 kV cm-1, 13 Hz) to raise the efficiency of the extraction of selected plant species rich in valuable phenolic compounds.Four types of natural deep eutectic solvents were applied for the ultrasound-assisted extraction of silymarin from milk thistle among which a choline-chloride-based mixture with glycerol was proved to be the most promising one. Additionally, the usage of high ultrasound power significantly increased the concentration of sylimarin as compared to traditional ethanol extraction, generating rapidly for 10 min considerable temperature rise as a side effect under non-cooling conditions. The application of PEF as a pre-treatment for 0.8 s to the extraction allowed reducing the ethanol percentage in the ethanol/water mixtures giving comparable phenolic yields, without any, or very little, increase in temperature. As such, optimized power intensity in conjunction with appropriate solvent system provides a potential to improve the release of thermally unstable bioactive compounds under mild processing conditions.
不同萃取方法在生物活性化合物回收中的传质强化:溶剂的影响
近年来,探索与非传统能源相结合的有机溶剂的新替代品,作为绿色提取植物性天然产物的工具,已成为研究和开发的热点。本文研究了利用低频超声(100 W, 32 kHz)和脉冲电场(0.86 kV cm- 1,13 Hz)提高提取富含有价酚类化合物的植物的效率。采用4种天然深共晶溶剂对水飞蓟中水飞蓟素进行超声辅助提取,其中氯胆碱-甘油混合溶剂的提取效果最好。此外,与传统的乙醇提取相比,高超声功率的使用显著提高了水飞蓟素的浓度,在非冷却条件下快速产生10分钟相当大的温度升高作为副作用。应用PEF作为萃取前处理0.8 s,可以降低乙醇/水混合物中的乙醇百分比,产生相当的酚收率,而不增加任何或很少增加温度。因此,优化的功率强度与适当的溶剂系统相结合,提供了在温和的加工条件下改善热不稳定生物活性化合物释放的潜力。
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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