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Sino-Russian Interdisciplinary Mathematical Conference-2
November 28, 2024 15:00–15:50, Moscow, MSU, hall 16-10, floor 16
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A semi-resolved CFD-DEM approach for particulate flows with thermal convection
Moubin Liu |
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Abstract:
Particulate flow has a wide range of industrial applications and is frequently modeled with coupled CFD-DEM approaches. In this work, we first identified a simulation gap between the resolved CFD-DEM and unresolved CFD-DEM through a size effect study. We then analyzed the error sources of the conventional unresolved CFD-DEM when modeling particulate flows with comparable mesh size and particle diameter. We finally developed a semi-resolved CFD-DEM model, which combines the advantages of both resolved and unresolved CFD-DEM models. The semi-resolved CFD-DEM uses a drag force model to characterize particle-fluid interaction, while the relative velocity in the drag force model is corrected through kernel-based approximations on the neighboring fluid cells rather than simply taking values in the local cell containing the concerned particle, and the void fraction in the force model is corrected as well. A number of numerical simulations including the sedimentation of single particle, separation of particles in a fluidized bed, spouted bed with heat particles, particulate flows in complex porous media, additive manufacturing (selective laser melting and direct laser deposition) have been conducted. Numerical results from different CFD-DEM approaches are compared together with experimental data. It is shown that the presented semi-resolved CFD-DEM bridges the simulation gap between the resolved CFD-DEM and unresolved CFD-DEM while it is as efficient as the conventional unresolved CFD-DEM and as accurate as the resolved CFD-DEM.
Language: English
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