Abstract
The size distribution, shape and aspect ratio of particles are the common factors that affect their packing in a particle bed. Agitated powder beds are commonly used in the process industry for various applications. The stresses arising as a result of shearing the bed could result in undesirable particle breakage with adverse impact on manufacturability. We report on our work on analysing the stress distribution within an agitated particle bed with several particle aspect ratios by the Discrete Element Method (DEM). Rounded cylinders with different aspect ratios are generated and incorporated into the DEM simulation. The void fraction of the packing of the static and agitated beds with different particle aspect ratios is analysed. Principal and deviatoric stresses are quantified in the regions of interest along the agitating impeller blade for different cases of particle aspect ratios. The relationship between the particle aspect ratio and the stress distribution of the bed over the regions of interest is then established and will be presented.
Highlights
IntroductionThe process performance is affected by the physical properties of the particles such as size and shape [1, 2]
Agitated powder beds are found in many process industries for mixing and drying
The bed packing void fraction is analysed and the stresses are characterised for various particle aspect ratios
Summary
The process performance is affected by the physical properties of the particles such as size and shape [1, 2]. Different packings of the bed give rise to different extents of resistance to flow and this may have adverse effects on particle breakage and transformations [3]. DEM is used to study the stress distribution within the region of interest as a function of particle aspect ratio. Rounded cylinders are used to represent particles with different aspect ratios. The interactions between the particles and the impeller as well as the evolution of stresses are of particular interest in this study. The bed packing void fraction is analysed and the stresses are characterised for various particle aspect ratios
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