Author:
Fonceca Ilberto,Maza Diego,Cruz Hidalgo Raúl
Abstract
In this work, we present an alternative methodology to solve the particle-fluid interaction in the resolved CFDEM ® coupling framework. This numerical approach consists of coupling a Discrete Element Method (DEM) with a Computational Fluid Dynamics (CFD) scheme, solving the motion of immersed particles in a fluid phase. As a novelty, our approach explicitly accounts for the body force acting on the fluid phase when computing the local momentum balance equations. Accordingly, we implement a fluid-particle interaction computing the buoyant and drag forces as a function of local shear strain and pressure gradient. As a benchmark, we study the Stokesian limit of a single particle. The validation is performed comparing our outcomes with the ones provided by a previous resolved methodology and the analytical prediction. In general, we find that the new implementation reproduces with very good accuracy the Stokesian dynamics. Complementarily, we study the settling terminal velocity of a sphere under confined conditions.
Reference13 articles.
1. Influence of rolling friction on single spout fluidized bed simulation
2. Hager A., Kloss C, Pirker S., Goniva C., Parallel open source CFD-DEM for resolved particle-fluid interaction (Ninth International Conference on CFD in the Minerals and Process Industries, Australia, 2012)
3. The immersed boundary-lattice Boltzmann method for solving fluid–particles interaction problems
4. Ellero M., Burghelea T., Bertola V., Transport Phenomena in Complex Fluids 361-392 (Springer International Publishing, 2020)
5. Friction controls even submerged granular flows
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