利用分数微积分研究水在原生淀粉和疏水改性淀粉中的异常扩散机制

Starch Pub Date : 2024-08-16 DOI:10.1002/star.202400120
Gustavo de Souza Matias, Ana Caroline Raimundini Aranha, Fernando Henrique Lermen, Camila Andressa Bissaro, Tania Maria Coelho, Rafael Oliveira Defendi, Luiz Mario de Matos Jorge
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引用次数: 0

摘要

分数微积分是一种用数学方法预测过程的方法。本研究使用分数阶模型来确定淀粉水合是受费克扩散还是反常扩散控制。根据淀粉的扩散特性和观察到的扩散类型,对原生淀粉和改性淀粉进行比较和分类。研究旨在调整扩散模型的分析解方程,以研究原生淀粉和改性淀粉的水合作用。对分数阶扩散模型进行了归纳,以比较两种模型,并确定原生淀粉和改性淀粉是否存在异常机制。结果表明,原生淀粉和改性淀粉颗粒的吸水性具有异常扩散的特点。这是由于温度条件和淀粉化学势的差异造成的。经证实,在相同的水合条件下,原生淀粉和改性淀粉的扩散特性是不同的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Anomalous Diffusion Mechanism for Water in Native and Hydrophobically Modified Starch Using Fractional Calculus
Fractional calculus is a method to predict processes mathematically. This study uses fractional order models to determine whether starch hydration is governed by Fickian or anomalous diffusion. Native and modified starches are compared and classified based on their diffusive characteristics and the type of diffusion observed. The study aims to adjust the equation of the analytical solution of the diffusion model to study the hydration of both native and modified starches. The fractional order diffusion model is generalized to compare the two models and identify whether anomalous mechanisms exist in native and modified starches. The results show that water absorption by native and modified starch granules is characterized by anomalous diffusion. This is due to the temperature conditions and differences in the chemical potential of the starches. It is verified that the diffusive characteristics of native and modified starches differ under the same hydration conditions.
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