期刊
POWDER TECHNOLOGY
卷 360, 期 -, 页码 33-42出版社
ELSEVIER
DOI: 10.1016/j.powtec.2019.10.021
关键词
CFD-DEM modelling; Drying; Shrinkage; Grain properties
资金
- Australian Research Council [IH140100035, DE180100266]
- Natural Science Foundation of China [91534206, U1560205]
- Monash University
- Australian Research Council [DE180100266] Funding Source: Australian Research Council
Drying is the most important post-harvest processing method for the long-term storage of food grains. Drying and related particle shrinkage are usually determined by various operational conditions and grain properties like grain size, density and initial moisture content. The impact of these food grain properties on drying and shrinkage is investigated by the recently developed computational fluid dynamics-discrete element method drying and shrinkage model. First particle mixing in a fluidised bed and general drying characteristics are discussed followed by the contribution of different heat transfer modes on fluidised bed drying. The particle scale investigation found that the convective heat transfer is dominant, but the conductive heat transfer becomes important at low air velocities. Then the effect of grain size, density and initial moisture content on drying rate are quantified in terms of drying rate. The drying rate increases exponentially with decreasing grain size, but a slightly smaller drying rate is observed with decreasing initial moisture content and grain density. The shrinkage rate, resembling the drying rate, increases with decreasing grain size or increasing initial moisture content and grain density. Finally, the effects of these food grain properties on the drying quality, quantified by moisture and grain size distributions, are evaluated in this study. The grain scale results revealed that the uniformity of moisture and grain size distributions increases with increasing grain size, decreasing initial moisture content or decreasing grain density. The findings should be useful for a better understanding and control of the drying process in the fluidised bed. (C) 2019 Elsevier B.V. All rights reserved.
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