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苹果片超声波预干燥传质过程试验研究
引用本文:赵芳,陈振乾,施明恒.苹果片超声波预干燥传质过程试验研究[J].东南大学学报(自然科学版),2011,41(1):124-128.
作者姓名:赵芳  陈振乾  施明恒
作者单位:东南大学能源与环境学院;
基金项目:教育部博士点基金资助项目(20090092110005)
摘    要:对超声波作用下苹果片预干燥过程进行了试验研究,分析了超声声强对样品预干燥速率的影响.建立了超声波预干燥过程的数学模型,模型中引入修正系数γ来反映超声波对样品内部水分扩散系数的影响.结合试验中所得样品含水率数据,计算出不同超声强度对应的修正系数,并拟合出修正系数与超声强度的关系曲线.研究结果表明,超声波有效强化了苹果片的...

关 键 词:超声波  预干燥  扩散系数  声强

Experimental study on mass transfer process in ultrasonic pre-dehydration of apple slice
Zhao Fang,Chen Zhenqian,Shi Mingheng.Experimental study on mass transfer process in ultrasonic pre-dehydration of apple slice[J].Journal of Southeast University(Natural Science Edition),2011,41(1):124-128.
Authors:Zhao Fang  Chen Zhenqian  Shi Mingheng
Institution:Zhao Fang Chen Zhenqian Shi Mingheng(School of Energy and Environment,Southeast University,Nanjing 210096,China)
Abstract:The experiment on pre-dehydration process of apple slice under ultrasound radiation was performed,and the effect of ultrasonic intensity on pre-dehydration rate of sample was analyzed.A mathematical model for ultrasonic pre-dehydration process was established.In this model,the correction coefficient γ was employed for considering the effect of ultrasound on moisture diffusion coefficient in sample,and it was numerically calculated based on the experimental data of water content in sample under different acoustic intensity.The relation curve of ultrasonic intensity to correction coefficient was also fitted.The results show that ultrasound effectively enhances the moisture transfer process in apple slice,the dehydration rate increases 67.2% at ultrasonic intensity of 1.0W/cm2.The effect of ultrasound radiation on moisture diffusion coefficient intensifies gradually with increasing of ultrasonic intensity and the correction coefficient increases linearly with ultrasonic intensity.In the experimental process,it is observed that temperature rising in the center and surface of sample caused by the thermal effect of ultrasound is unobvious,and the average temperature rise of sample is no more than 2℃ at the ultrasonic intensity of 1.0W/cm2.
Keywords:ultrasound  pre-dehydration  diffusion coefficient  acoustic intensity  
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