Kinetics of aqueous extraction of phenolic compounds from processed yerba mate leaves

Revista de Ciencia y Tecnología Pub Date : 2021-12-01 DOI:10.36995/j.recyt.2021.36.004

G. G. López, M. Brousse, M. L. Vergara, A. M. Gonzalez, Nancy E. Cruz, R. A. Linares

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引用次数: 1

Abstract

In this study, the kinetics of aqueous extraction of phenolic compounds from the yerba mate leaves were analyzed. A temperature range between 40°C and 70°C and a ratio of 25 g of mate leaves in 200 mL of water were used. The extraction kinetic was studied adjustment of the kinetics models of first order, second order kinetic model and the second order diffusive model. The goodness of the fit was controlled by the magnitude of the coefficient of determination (R2), the percentage error (EP %) and the square root of the mean square error (RMSE).The second order kinetic models adequately described the extraction process, achieving the best fit with the second order diffusive model (EP%= 0,81 to 2,9; EP%= 11,24 to 14,99 and 4,72 and 6,92) that provided important information about the initial extraction process and the mechanism that occurs in the final extraction stage. The temperature influenced the kinetic parameters; however, the final equilibrium concentration of phenolic compounds was not affected by it. The results of this study allow us to obtain better overall knowledge of the times and temperatures for improved extraction rates and energy consumption for the industrialization of these compounds.

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马黛茶叶中酚类化合物的水萃取动力学

对马黛茶叶中酚类化合物的水提动力学进行了研究。温度范围在40°C和70°C之间，比例为25克马黛茶叶在200毫升水中。研究了萃取动力学对一阶动力学模型、二阶动力学模型和二阶扩散动力学模型的调整。拟合优度由决定系数(R2)的大小、误差百分比(EP %)和均方误差(RMSE)的平方根控制。二级动力学模型充分描述了萃取过程，与二级扩散模型拟合最佳(EP%= 0,81 ~ 2,9;EP%= 11、24 ~ 14、99、4、72、6、92)，提供了关于初始提取过程和最终提取阶段发生的机制的重要信息。温度对动力学参数有影响;但酚类化合物的最终平衡浓度不受其影响。本研究的结果使我们能够更好地全面了解时间和温度，以提高这些化合物的提取率和工业化的能源消耗。

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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Revista de Ciencia y Tecnología

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