Simulation of Drying of Particulate Suspensions in Spray-Drying Granulation Process
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概要
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The granules used in powder compaction processes must have homogeneous morphology and the appropriate breaking strength. Hence, in order to control the morphology and breaking strength of granules, it becomes important to clarify their formation mechanisms. In the present study, the relationship between the morphology of spray-dried granules and drying conditions has been investigated by using numerical simulations. A simulation method for the drying of particulate suspensions has been developed by combining a distinct element method (DEM), which is used for analyzing particle behavior, with a constrained interpolation profile (CIP) method, which is used for analyzing gas–liquid multiphase flow. The particle motion and gas–liquid flow during the drying of droplet-suspended particulates are calculated at various air temperatures using this simulation method. A hollow granule is formed, and enlarges when the air temperature and drying rate are increased. When the drying rate is increased, particles begin to crust into a droplet surface early; moreover, the shrinkage of the crust is stopped earlier than under the condition of low drying rates. The gas–liquid interface then enters the crust. In this manner, a hollow granule is formed. We then perform simulations of the drying of a suspension droplet with different drying rate distributions on the droplet surface. A depression is formed at the granule surface at the part with low drying rate; in contrast, in the case of the part with the higher drying rate, the crust is formed rapidly and the gas–liquid interface begin to invade into the crust earlier. A capillary force arises and a liquid pressure decreases in the crust, and then the liquid flows according to the pressure gradient. Because particles are transferred with the liquid flow, the crust partially collapses inward, while depressions are formed in the granule.
- 社団法人 化学工学会の論文
- 2010-12-01
著者
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Shimosaka Atsuko
Department of Chemical Engineering and Materials Science, Doshisha University
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Shirakawa Yoshiyuki
Department of Chemical Engineering and Materials Science, Doshisha University
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Hidaka Jusuke
Department of Chemical Engineering and Materials Science, Doshisha University
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Hidaka Jusuke
Department Of Chemical Engineering And Material Science Faculty Of Science Engineering Doshisha Univ
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Shirakawa Yoshiyuki
Department Of Chemical Engineering And Materials Science Doshisha University
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Shirakawa Y
Osaka Univ. Osaka
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Shirakawa Yoshiyuki
Department Of Materials Science And Processing Faculty Of Engineering Osaka University
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Hidaka J
Department Of Chemical Engineering And Materials Science Doshisha University
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NISHIURA Daisuke
Institute for Research on Earth Evolution, Japan Agency for Marin-Earth Science and Technology
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Shimosaka A
Department Of Chemical Engineering And Materials Science Doshisha University
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Shimosaka Atsuko
Department Of Chemical Engineering And Materials Science Doshisha University
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NISHIURA Daisuke
Department of Chemical Engineering and Materials Science, Doshisha University
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