Intermittent Microwave Drying of Apple Slices: Drying Kinetics, Modeling, Rehydration Ratio and Effective Moisture Diffusivity

IF 0.7 Q3 AGRICULTURE, MULTIDISCIPLINARY

Journal of Agricultural Sciences Pub Date : 2020-03-05 DOI:10.15832/ankutbd.464715

N. Izli, A. Polat

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引用次数: 3

Abstract

In this research, thin layer drying characteristics, rehydration ratio and effective moisture diffusivity of apple were investigated using microwave dryer which has intermittent and continuous modes. Drying time varied between 25 and 215 minutes and they declined with the rise in microwave power and reduction in pulsing ratio. In an attempt to pick the optimum thin layer models for the drying applications, 8 mathematical models suited to the experimental results. On the grounds of the statistical tests evaluation, Midilli et al model which represent drying characteristics are optimally suited than other models. The highest rehydration ratio was recorded for the samples dried at 100W continuous mode and the lowest ratio at 300W continuous application. Effective moisture diffusivity values were computed by the 2nd law of Fick and changing between 3.04x10-9 and 2.53x10-8 m2 s-1. Consequently, the intermittent microwave method could be used as a favorable drying method for obtaining high-quality fruit slices or processing valuable material and continuous microwave drying can be taken as another drying approach for apple samples.

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间歇微波干燥苹果片:干燥动力学，建模，再水化率和有效水分扩散率

采用间歇式和连续式微波干燥机，对苹果的薄层干燥特性、复水率和有效水分扩散率进行了研究。干燥时间为25 ~ 215 min，随微波功率的增大和脉冲比的减小而减小。为了选择适合干燥应用的最佳薄层模型，选取了8个适合实验结果的数学模型。在统计试验评价的基础上，Midilli等模型比其他模型更适合代表干燥特性的模型。在100W连续模式下干燥的样品复水化率最高，300W连续模式下的复水化率最低。根据菲克第二定律计算有效水分扩散系数值，在3.04 × 10-9和2.53 × 10-8 m2 s-1之间变化。因此，间歇微波干燥可作为获得高质量水果片或加工有价值材料的一种较好的干燥方法，连续微波干燥可作为苹果样品的另一种干燥方法。

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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来源期刊

Journal of Agricultural Sciences AGRICULTURE, MULTIDISCIPLINARY-

CiteScore

1.80

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0.00%

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