Mathematical Modeling of Mass Transfer during Convective Dehydration of Brown Algae Macrocystis Pyrifera

Antonio Vega-Galvez; Alfredo Ayala-Aponte; Eduardo Notte

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Mathematical Modeling of Mass Transfer during Convective Dehydration of Brown Algae Macrocystis Pyrifera

机译：褐藻Macyrcystis Pyrifera对流脱水过程中传质的数学模型

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The aim of this research was to study and to model the drying kinetics of the brown algae Macrocystis pyrifera at 50, 60, 70, and 80°C. GAB equation showed a good fit on the sorption experimental data. Fick's diffusional model, together with Newton, Henderson-Pabis, Page, modified Page, logarithmic, and Midilli-Kukuc models were applied on the drying kinetics of the alga. The D_(we) increased from 5.56 to 10.22 x 10~(-9) m~2/s as temperature increased from 50 to 80°C. Midilli-Kukuc and logarithmic models obtained the best-fit quality for drying curves based on the statistical tests. In consequence, both models are excellent tools for estimating the drying time of this product.

机译：这项研究的目的是研究和模拟褐藻Macrocystis pyrifera在50、60、70和80°C下的干燥动力学。 GAB方程与吸附实验数据吻合良好。 Fick的扩散模型与牛顿，亨德森-帕比斯，佩奇，改良的佩奇，对数和米迪利-库库奇模型一起用于藻类的干燥动力学。随着温度从50°C升高到80°C，D_（we）从5.56增加到10.22 x 10〜（-9）m〜2 / s。 Midilli-Kukuc和对数模型基于统计检验获得了干燥曲线的最佳拟合质量。因此，这两种模型都是估算该产品干燥时间的出色工具。

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《Drying technology: An International Journal 》 |2008年第12期| 共7页
作者
Antonio Vega-Galvez; Alfredo Ayala-Aponte; Eduardo Notte;
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正文语种 eng
中图分类一般性问题 ;
关键词
Brown algae; Drying; Modeling; Sorption; Statistical tests;

机译：褐藻;干燥;建模;吸附;统计测试;

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1. Mathematical Modeling of Mass Transfer during Convective Dehydration of Brown Algae Macrocystis Pyrifera [J] . Antonio Vega-Galvez, Alfredo Ayala-Aponte, Eduardo Notte Drying technology: An International Journal . 2008 ,第10a12期

机译：褐藻Macyrcystis Pyrifera对流脱水过程中传质的数学模型
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Mathematical Modeling of Mass Transfer during Convective Dehydration of Brown Algae Macrocystis Pyrifera

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