Model Development and Experimental Validation for Thin-layer Rice Drying with Far Infrared Radiation
This study started with experimental investigation of thin-layer rice drying with far infrared radiation, which indicated different influences of radiation intensity, radiation plate spacing, and airflow speed on drying rate of thin-layer rice. Based on the experimental results that radiation intensity and its radiation plate spacing had bigger effect on moisture ratio, we developed mathematic model with SPSS software for thin-layer rice drying. In the validating experiments for this developed mathematic model, a satisfied agreement between the experimental measurement and theoretical prediction had been obtained for knowing that the average error of moisture ratio was within 7.5%. Our study concluded that the developed mathematic model could be applied to the prediction of thin-layer rice drying with far infrared radiation.
Far infared radiation rice thin-layer drying mathematics model
Zhengguo Lian Lianlian Wu Jiangang Wang Zhaohui Yang
School of Mechanical and Electrical Engineering Qingdao Agricultural University Qingdao, China Jiangxi Polytechnic College,Ping xiang, China
国际会议
哈尔滨
英文
157-160
2012-06-16(万方平台首次上网日期,不代表论文的发表时间)