党参药材不同干燥方法水分华体会(中国)过程模拟与分析
Modelling and analysis of the moisture dynamic process of Codonopsis Radix with different drying methods
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摘要: 为实现对党参药材干燥过程的有效预测,优选党参药材干燥方法,本文采用Weibull分布函数对其干燥动力学曲线进行模拟与分析,并探索不同干燥方法与温度对其干燥过程的影响。结果表明,Weibull分布函数可较好地模拟党参药材的干燥过程,党参药材干燥过程脱水速率呈现先升高后降低趋势;尺度参数α随干燥温度升高而减小;形状参数β受干燥温度影响较小;党参药材热风干燥法、红外干燥法所得活化能分别为40.40、70.21 k J/mol。从水分脱除效率角度考察,当干燥温度低于51.51℃时,党参药材采用热风干燥法干燥完成63%耗时大于385.6 min,但干燥速率较红外干燥法提高20%以上,故宜采用热风干燥法;当干燥温度高于63.88℃时,热风干燥法干燥完成63%耗时小于222.6 min,但干燥速率较红外干燥法降低20%以上,故宜采用红外干燥法;当干燥温度介于两者之间,则两种干燥方法皆可。本研究从水分脱除效率角度为党参药材现代干燥加工工艺的建立与优化提供了数据支撑。Abstract: To realize an effective prediction of the drying process and select the appropriate drying method for Codonopsis Radix, Weibull distribution was applied for modelling the dynamic drying curves of Codonopsis Radix and the effects of drying method and temperature on the drying process were investigated.Results showed that Weibull distribution did well in simulating the drying curves of Codonopsis Radix under the experimental conditions.Drying rate was found to present a rising trend at the beginning but a downward trend as time went on. The scale parameter ( α) was decreased with the increasing of drying temperature.The shape parameter ( β) was scarcely influenced by temperature. The activation energy ( Ea) for Codonopsis Radix obtained with hot-air drying and infrared drying was 40.40 and 70.21 k J/mol, respectively.From the aspect of moisture removal efficiency, hot-air drying would be preferable for the drying of Codonopsis Radix at temperatures under 51.51 ℃ because drying time consumed for 63% of the complete drying process was shortened than infrared drying by over 20%.On the contrast, infrared drying would be better when temperature was higher than 63.88 ℃ as consumption of drying time for 63% of the complete drying process was shortened than hot-air drying by over 20%.When the temperature was in the range from 51.51 ℃and 63.88 ℃, either would be appropriate.The study provided the data support for the establishment and optimization of modern drying methods on Codonopsis Radix from the aspect of moisture removal efficiency.