个人信息Personal Information
教授
博士生导师
硕士生导师
性别:男
毕业院校:大连理工大学
学位:博士
所在单位:化工学院
学科:化工过程机械. 流体机械及工程. 安全科学与工程
办公地点:西部校区实验楼H305室
联系方式:Tel:13998448116 0411-84986273
电子邮箱:xlz@dlut.edu.cn
Experimental and numerical analysis of oil shale drying in fluidized bed
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论文类型:期刊论文
发表时间:2017-05-19
发表刊物:DRYING TECHNOLOGY
收录刊物:SCIE、EI、Scopus
卷号:35
期号:7
页面范围:802-814
ISSN号:0737-3937
关键字:Fluidized bed dryer; heat and mass transfer; numerical modeling; oil shale
摘要:The main objective of this work was to experimentally and numerically investigate the Liu Shu River oil shale drying by the means of flue gas in a fluidized bed dryer. Several experiments were performed under different temperatures conditions. The moisture content of oil shale was measured during the experiments. The two-stage drying model was incorporated in computational fluid dynamics (CFD) package FLUENT via user-defined functions (UDF) and utilized for simulation of heat and mass transfer of oil shale drying in the fluidized bed dryer. The simulation results for solid moisture content agreed well with experimental data. The effects of the temperature and velocity of flue gas, initial bed height, and the particle size on the drying characteristics were predicted and analyzed. It is shown that the gas temperature and velocity are the important parameters in the whole drying process. The particle size has more obvious influence in the falling drying period than the constant drying period. The temperatures of gas and solid phases were monitored. It is shown that the so-called near gas distributor zone is the most effective heat transfer zone, which agrees well with the calculated value. The system quickly reached thermal equilibrium, characterizing a nearly isothermal bed. The developed model provides a very good demonstration to describe the oil shale drying in the fluidized bed dryer, and may provide important information for design, optimization of operation conditions.