In almost all particle laden flows, drag force has the main contribution in the motion of particles. Therefore, this force needs to be calculated precisely in order to simulate particle-fluid flows successfully. In EDEM, commonly used drag models for spherical and non-spherical particles (based on sphericity) have been implemented.
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Name |
Description and Parameter Values |
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Schiller and Naumann Drag |
This drag model requires an imported velocity vector field or user defined flow field. In addition, the user specifies the fluid density and viscosity and particle scale factor used.
Only one drag model should be applied per simulation. |
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Morsi and Alexander Drag |
This drag model requires an imported velocity vector field or user defined flow field. In addition, the user specifies the fluid density and viscosity and particle scale factor used.
Only one drag model should be applied per simulation. |
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Haider & Levenspiel Drag |
This model requires the user to specify the sphericity of each particle type used (default of 1 is a perfect sphere). This value is used in the drag calculation to account for non-spherical particles.
This drag model requires an imported velocity vector field or user defined flow field. In addition, the user specifies the fluid density and viscosity and particle scale factor used.
Only one drag model should be applied per simulation. |
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Ganser Drag |
This model requires the user to specify the sphericity of each particle type used (default of 1 is a perfect sphere). This value is used in the drag calculation to account for non-spherical particles.
This drag model requires an imported velocity vector field or user defined flow field. In addition, the user specifies the fluid density and viscosity and particle scale factor used.
Only one drag model should be applied per simulation. |
Use:
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