An optimal \(\mathcal{O}(N)\) scheme for simulations of colliding, particle-laden flows on unstructured grids
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Publication:2125007
DOI10.1016/j.jcp.2020.109703OpenAlexW3042920280MaRDI QIDQ2125007
Publication date: 11 April 2022
Published in: Journal of Computational Physics (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1016/j.jcp.2020.109703
unstructured gridcollision detectionLagrangian particle trackingparticle localizationoptimal search box size
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Cites Work
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- A grid-independent particle pairing strategy for DSMC
- Particle host cell determination in unstructured grids
- Parallelization of an Euler-Lagrange model using mixed domain decomposition and a mirror domain technique: application to dispersed gas-liquid two-phase flow
- Adaptive embedded and immersed unstructured grid techniques
- An improved known vicinity algorithm based on geometry test for particle localization in arbitrary grid
- Algorithms for interpolation and localization in irregular 2D meshes
- Localization schemes in 2D boundary-fitted grids
- A generalized particle search-locate algorithm for arbitrary grids
- Robust, vectorized search algorithms for interpolation on unstructured grids
- Numerical considerations in simulating a turbulent suspension of finite-volume particles
- An efficient and robust particle-localization algorithm for unstructured grids
- An Euler-Lagrange strategy for simulating particle-laden flows
- A balanced force refined level set grid method for two-phase flows on unstructured flow solver grids
- A vectorized particle tracer for unstructured grids
- An improved particle-locating algorithm for Eulerian-Lagrangian computations of two-phase flows in general coordinates
- Algorithms for particle-field simulations with collisions
- An effective particle tracing scheme on structured/unstructured grids in hybrid finite volume/PDF Monte Carlo methods
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