A novel two-way coupling model for Euler-Lagrange simulations of multiphase flow
Verhnjak O, Hriberšek M, Steinmann P, Ravnik J (2020)
Publication Type: Journal article
Publication year: 2020
Journal
Book Volume: 119
Pages Range: 119-132
DOI: 10.1016/j.enganabound.2020.07.012
Abstract
We propose a novel approach for two-way coupled simulations of multiphase flows within an Eulerian-Lagrange framework. Lagrangian particles are commonly approximated as point sources of either energy, mass or momentum. To introduce them into the Eulerian computation of the fluid flow, an approximation of the Dirac delta function has to be made. By resorting to the Boundary Element Method (BEM) based computation of fluid flow, it is possible to implement the point source concept without any numerical approximation by simply taking advantage of the properties of the fundamental solution present in BEM. However, singularity issues occur in the close vicinity of the mesh nodes. To remedy this effect, the particle-in-cell (PIC) method is used. We present a novel hybrid BEM-PIC two-way coupling algorithm and show that the proposed BEM-PIC model gives superior results compared to a standard PIC implementation. We introduce a critical distance to separate the domain, where the BEM model can be used and the domain, where the PIC model should be used. The results show that the BEM model can be used in about 97%−99% of the domain depending on the mesh used. We provide a criterion for estimating the critical distance within the novel hybrid BEM-PIC two-way coupling algorithm.
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Slovenia (SI)How to cite
APA:
Verhnjak, O., Hriberšek, M., Steinmann, P., & Ravnik, J. (2020). A novel two-way coupling model for Euler-Lagrange simulations of multiphase flow. Engineering Analysis With Boundary Elements, 119, 119-132. https://dx.doi.org/10.1016/j.enganabound.2020.07.012
MLA:
Verhnjak, O., et al. "A novel two-way coupling model for Euler-Lagrange simulations of multiphase flow." Engineering Analysis With Boundary Elements 119 (2020): 119-132.
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