白水山药薄片薄层干燥特性的建模

Adebimpe Fatimat Okeleye, Charles Taiwo Akanbi, Tunde Afolabi Morakinyo
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引用次数: 1

摘要

在对流热风炉中,以未焯水山药片为研究对象,研究了焯水山药片的薄层干燥特性。山药切片(直径4厘米;厚度为0.8 cm),分别在50、60和70°C的温度下干燥,恒定风速为0.13 m/s。将得到的干燥数据拟合到现有的6种干燥模型中:Page、Newton、Midilli、Henderson和Pabis、对数和扩散模型。采用非线性回归分析确定模型参数;决定系数(R2)和估计的标准误差(SEE),以确定模型的最佳拟合。研究表明,干燥过程发生在降速干燥期。经焯水处理的山药片比未焯水处理的山药片干燥速度快。其中,扩散模型对干燥数据的拟合效果最好。焯水后的有效水分扩散系数为3.18×10-8 ~ 4.47×10-8 m2/s,未焯水后的有效水分扩散系数为4.73×10-8 ~ 7.33×10-8 m2/s。焯水和未焯水山药片的活化能分别为15.5 kJ/mol和20.1 kJ/mol。所得条件适合山药粉的工艺设计和控制,从而提高了山药粉的利用率和总体接受度。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Modeling of thin layer drying characteristics of blanch-assisted water yam (Dioscorea alata) slices
The thin layer drying characteristics of blanch-assisted water yam slices were investigated with respect to its un-blanched water yam slices in a convective hot air oven. The yam slices (diameter 4 cm; thickness 0.8 cm) were dried at temperatures 50, 60 and 70 °C, respectively with a constant air velocity of 0.13 m/s. The drying data obtained were fitted into six existing drying models: Page, Newton, Midilli, Henderson and Pabis, Logarithmic and Diffusion model. Non-linear regression analysis was used to determine the model parameters; the coefficient of determination (R2) and standard error of estimates (SEE) in order to determine the model best fit. The study showed that the drying process occurred in the falling rate drying period. The blanch-assisted slices had a faster drying rate than the un-blanched yam slices. Among the models, the diffusion model gave the overall best fit for the drying data obtained. The effective moisture diffusivity ranged from 3.18×10-8 to 4.47×10-8 m2/s for the blanch-assisted slices and from 4.73×10-8 to 7.33×10-8 m2/s for the un-blanched slices. The activation energies of the blanch-assisted and un-blanched yam slices were 15.5 kJ/mol and 20.1 kJ/mol, respectively. These processing conditions obtained for water yam flour would be suitable for its process design and control thereby enhancing its utilization and overall acceptability.
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