Analyzing drying characteristics and modeling of thin layers of peppermint leaves under hot-air and infrared treatments  被引量:13

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作  者:Seyed-Hassan Miraei Ashtiani Alireza Salarikia Mahmood Reza Golzarian 

机构地区:[1]Department of Biosystems Engineering,Faculty of Agriculture,Ferdowsi University of Mashhad,Mashhad,Iran

出  处:《Information Processing in Agriculture》2017年第2期128-139,共12页农业信息处理(英文)

摘  要:The drying kinetics of peppermint leaves was studied to determine the best drying method for them.Two drying methods include hot-air and infrared techniques,were employed.Three different temperatures(30,40,50℃)and air velocities(0.5,1,1.5 m/s)were selected for the hot-air drying process.Three levels of infrared intensity(1500,3000,4500 W/m^2),emitter-sample distance(10,15,20 cm)and air speed(0.5,1,1.5 m/s)were used for the infrared drying technique.According to the results,drying had a falling rate over time.Drying kinetics of peppermint leaves was explained and compared using three mathematical models.To determine coefficients of these models,non-linear regression analysis was used.The models were evaluated in terms of reduced chi-square(χ^2),root mean square error(RMSE)and coefficient of determination(R^2)values of experimental and predicted moisture ratios.Statistical analyses indicated that the model with the best fitness in explaining the drying behavior of peppermint samples was the Logarithmic model for hot-air drying and Midilli model for infrared drying.Moisture transfer in peppermint leaves was also described using Fick’s diffusion model.The lowest effective moisture diffusivity(1.096×10^-11m^2/s)occurred during hot-air drying at 30℃ using 0.5 m/s,whereas its highest value(5.928×10^-11m^2/s)belonged to infrared drying using 4500 W/m^2 infrared intensity,0.5 m/s airflow velocity and 10 cm emitter-sample distance.The activation energy for infrared and hot-air drying were ranged from 0.206 to 0.439 W/g,and from 21.476 to 27.784 kJ/mol,respectively.

关 键 词:Drying kinetics Effective diffusivity Energy activation Moisture ratio Moisture removal Semi-theoretical model 

分 类 号:TG1[金属学及工艺—金属学]

 

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