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W4282012503 endingPage "117782" @default.
W4282012503 startingPage "117782" @default.
W4282012503 abstract "• Particle-scale cohesion model parameters are extracted from bulk defluidization. • The extracted parameters are validated via angle-of-repose measurements. • The angle of repose obtained via the hollow cylinder method are reported. • A good agreement is shown between experiments and DEM for the angle of repose. • The angle of repose is found to be sensitive to both cohesive force and energy. The most sophisticated descriptions of particle-particle cohesion rely on extremely sensitive and resource-intensive measurements, often making them impractical for industrial application. The focus here is to experimentally assess the “square-force” cohesion model ( Liu et al., 2018 ), which (i) incorporates the two quantities that dictate interactions, namely cohesive force and energy, and (ii) involves simple bulk measurements to obtain particle-particle cohesion. In particular, square-force model parameters are extracted via a combination of defluidization experiments and corresponding computational fluid dynamics – discrete element method (CFD-DEM) simulations. Defluidization is achieved via an energy-assisted, commercial rheometer such that channeling does not become an obstacle. The resulting square-force cohesion model is then applied to a different system with the same particles, namely pile formation via the free fall of particles. Excellent agreement is found between the measurements and predictions of the angle of repose, indicating that an accurate cohesion model is possible via simple, bulk experiments." @default.
W4282012503 created "2022-06-13" @default.
W4282012503 creator A5048027017 @default.
W4282012503 creator A5055610649 @default.
W4282012503 creator A5059005859 @default.
W4282012503 creator A5064871295 @default.
W4282012503 creator A5089291709 @default.
W4282012503 date "2022-09-01" @default.
W4282012503 modified "2023-09-23" @default.
W4282012503 title "Experimental validation of the extraction of a particle-particle cohesion model (square-force) from simple bulk measurements (defluidization in a rheometer)" @default.
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W4282012503 doi "https://doi.org/10.1016/j.ces.2022.117782" @default.
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