The fluid drag forces on the particles are calculated using the Schiller-Naumann drag
model. AcuSolve receives the particle position and
velocity information from EDEM and calculates the drag
forces on particles. This fluid forces information is sent back to EDEM, which will be used to update the location and
velocities of the particles. This loop is repeated until the end of the simulation.
One-way coupling between AcuSolve and EDEM is used to simulate the separation of particles, and
only the effect of the fluid forces on the particles is considered. The effect of
the particles on the fluid field is not considered here.Figure 1.
Two-way coupling
Two-way coupling between AcuSolve and EDEM is used to simulate the separation of particles. Here,
the effect of the fluid forces on the particles and the effect of the particles on
the fluid field are considered.
AcuSolve setup and geometry export
From the Flow ribbon, click the Physics tool.
Figure 2.
Under the Physics models settings, change the flow radio button to
Multiphase.
Change the Multifluid type to either Unidirectional EDEM
Coupling or Bidirectional EDEM
Coupling.
Select Material Library from the Eularian Material
list. In the dialog, select EDEM 1/2 Way Multiphase,
click the My Materials tab, then click to
create a new material.
Assign the created EDEM material to a solid
body.
Define the appropriate boundaries, surface outputs, and nodal initial
conditions.
Save the model and export the AcuSolve solver
deck, which will also write out the appropriate EDEM files.
EDEM setup and simulation
Load the EDEM file (.dem
extension) in the EDEM application.
Define bulk materials, equipment materials, particle factories, and
environments.
Run the EDEM simulation.
Open HyperMesh CFD, load the saved hm model, and run the
AcuSolve simulation, which will consider
coupling.
to
create a new material.