植物原料中生物活性物质分离纯化技术的改进

Q3 Pharmacology, Toxicology and Pharmaceutics Drug Development and Registration Pub Date : 2023-10-12 DOI:10.33380/2305-2066-2023-12-4-1585
G. N. Turmanidze, V. V. Sorokin, K. S. Stepanov, M. A. Ignatenko
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In particular, it is proposed to use mixing devices with the configuration of impellers obtained by computational fluid dynamics, when using a Soxhlet extractor to use a heated extraction chamber, by adding an external coil jacket, which makes it possible to regulate the temperature inside the extraction chamber to accelerate the processes of diffusion and mass transfer, and to select the solvent and extractant on the basis of thermodynamic models by calculation. Aim. Improving the technology for isolating and purifying hesperidin from plant materials using modernized equipment. Materials and methods. Flow distribution in extraction apparatuses was modeled using computational fluid dynamics methods. To evaluate the results obtained on the basis of modeling, a number of experiments were carried out, the object of which was the peel of an orange (dried flavedo and albedo, grinding degree 0.1–0.2 mm, moisture content 3.5 %). The quantitative content of the flavonoid complex in terms of hesperidin was determined by direct spectrophotometry at a wavelength of 290 nm, the quantitative content of hesperidin was determined gravimetrically. Statistical data processing was performed using Minitab v21 software (Minitab Inc., USA), differences were considered statistically significant at p < 0.05. Results and discussion. Based on the methods of computational fluid dynamics, to intensify the processes of mixing and dissolution at the stages of preliminary degreasing of raw materials and extraction, a six-bladed impeller was designed, which makes it possible to accelerate these processes by creating axial and radial flows of fluid movement in a capacitive apparatus and maintaining raw materials in suspended state in the volume of liquid at low mixing speeds and energy consumption. 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引用次数: 0

摘要

介绍。改进从植物中分离和纯化生物活性物质的技术是制药、食品和化妆品行业的重要任务。技术发展往往需要改变现有设备的设计。在实施新技术的设备现代化过程中,可以改进其配置,从而可以以最小的成本显着提高活性物质的产量。为了提高从植物中分离橙皮苷的效率,我们提出了多种技术方案。特别提出了采用计算流体力学得到的叶轮结构的混合装置,在索氏萃取器使用加热萃取室时,通过增加外部线圈夹套,可以调节萃取室内的温度,加速扩散和传质过程,并根据热力学模型计算选择溶剂和萃取剂。的目标。采用现代化设备改进了从植物原料中分离纯化橙皮苷的工艺。材料和方法。采用计算流体力学方法对萃取装置内的流动分布进行了建模。为了评价基于模型得到的结果,以柑桔皮为实验对象(干黄、干反照率,磨度0.1 ~ 0.2 mm,含水率3.5%)进行了多次实验。用直接分光光度法在波长290 nm处测定橙皮苷类黄酮配合物的定量含量,用重量法测定橙皮苷的定量含量。使用Minitab v21软件(Minitab Inc., USA)进行统计数据处理,p <认为差异具有统计学意义;0.05. 结果和讨论。基于计算流体力学的方法,为了加强原料初脱脂和萃取阶段的混合和溶解过程,设计了六叶叶轮,通过在电容装置中产生流体运动的轴向和径向流动,在低混合速度和低能量消耗的情况下保持原料在液体体积中的悬浮状态,从而加速这些过程。在萃取室中配置盘绕式夹套,可以显著提高活性物质的溶解度,并在一个萃取周期中提取更多的目标成分。建立了橙皮苷的分离纯化工艺,并对工艺参数进行了确定和优化。结论。研究结果表明,采用计算流体力学方法选择混合装置可以加强活性物质的提取和溶解过程。为了从致密原料(根、树皮等)中分离出难溶性化合物,提出了一种用加热萃取室对索氏装置进行改进的方法。典型技术装置的现代化使得单次重结晶就可以获得收率高达95%、纯度高达90%的橙皮苷物质。
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Improvement of Technologies for Isolation and Purification of Biologically Active Substances from Plant Raw Materials
Introduction. Improving the technologies for isolating and purifying biologically active substances from plant materials is an important task for the pharmaceutical, food and cosmetic industries. Technology development often requires changes to the design of existing equipment. During the modernization of equipment for the implementation of new technologies, it is possible to improve its configuration, which makes it possible to significantly increase the yield of active substances at minimal cost. To increase the efficiency of the process of isolating hesperidin from plant materials, we proposed to use a number of technological solutions. In particular, it is proposed to use mixing devices with the configuration of impellers obtained by computational fluid dynamics, when using a Soxhlet extractor to use a heated extraction chamber, by adding an external coil jacket, which makes it possible to regulate the temperature inside the extraction chamber to accelerate the processes of diffusion and mass transfer, and to select the solvent and extractant on the basis of thermodynamic models by calculation. Aim. Improving the technology for isolating and purifying hesperidin from plant materials using modernized equipment. Materials and methods. Flow distribution in extraction apparatuses was modeled using computational fluid dynamics methods. To evaluate the results obtained on the basis of modeling, a number of experiments were carried out, the object of which was the peel of an orange (dried flavedo and albedo, grinding degree 0.1–0.2 mm, moisture content 3.5 %). The quantitative content of the flavonoid complex in terms of hesperidin was determined by direct spectrophotometry at a wavelength of 290 nm, the quantitative content of hesperidin was determined gravimetrically. Statistical data processing was performed using Minitab v21 software (Minitab Inc., USA), differences were considered statistically significant at p < 0.05. Results and discussion. Based on the methods of computational fluid dynamics, to intensify the processes of mixing and dissolution at the stages of preliminary degreasing of raw materials and extraction, a six-bladed impeller was designed, which makes it possible to accelerate these processes by creating axial and radial flows of fluid movement in a capacitive apparatus and maintaining raw materials in suspended state in the volume of liquid at low mixing speeds and energy consumption. Equipping the extraction chamber with a coiled jacket made it possible to significantly increase the solubility of the active substance and extract more of the target component in one extraction cycle. A technology for the isolation and purification of hesperidin was developed, and the parameters of the processes were determined and optimized. Conclusion. As a result of the study, it was shown that it is possible to intensify the processes of extraction and dissolution of active substances by selecting mixing devices using the method of computational fluid dynamics. To isolate poorly soluble compounds from dense raw materials (roots, bark, etc.), a modification of the Soxhlet apparatus with a heated extraction chamber was proposed. Modernization of typical technological units made it possible to obtain the substance of hesperidin with a yield of up to 95 % and a purity of up to 90 % with a single recrystallization.
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来源期刊
Drug Development and Registration
Drug Development and Registration Pharmacology, Toxicology and Pharmaceutics-Pharmaceutical Science
CiteScore
1.20
自引率
0.00%
发文量
61
审稿时长
8 weeks
期刊最新文献
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