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Auteurs principaux: Zhang, Jianqiao, Yan, Wei, Li, Xianggui
Format: Preprint
Publié: 2024
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Accès en ligne:https://arxiv.org/abs/2405.06046
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author Zhang, Jianqiao
Yan, Wei
Li, Xianggui
author_facet Zhang, Jianqiao
Yan, Wei
Li, Xianggui
contents This work presents an arbitrary Lagrangian Eulerian (ALE) method for the compressible two-phase flow ejecta transporting model with the HLLC-2D Riemann solver. We focus on researching the precise equation to describe the interactions between particle phase and flow phase. The calculation of the momentum and energy exchange across two phases is the key point during the procedure, which can be capable of maintaining the conservation of this system. For particles, tracking their trajectories within the mesh and elements is essential. Thereafter an ALE method instead of Lagrangian scheme is derived for the discretization of the equation to perform better with the complex motion of particles and flow. We apply the HLLC-2D Riemann solver to substitute the HLLC solver which relaxes the limitation for continuous fluxes along the edge. Meanwhile we propose a method for searching particles and provide a CFL-like condition based on this. Finally, we show some numerical tests to analysis the influence of particles on fluid and get a following effect between two phases. The model and the numerical method are validated through numerical tests to show its robustness and accuracy.
format Preprint
id arxiv_https___arxiv_org_abs_2405_06046
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle An ALE numerical method with HLLC-2D solver for the two-phase flow ejecta transporting model
Zhang, Jianqiao
Yan, Wei
Li, Xianggui
Numerical Analysis
This work presents an arbitrary Lagrangian Eulerian (ALE) method for the compressible two-phase flow ejecta transporting model with the HLLC-2D Riemann solver. We focus on researching the precise equation to describe the interactions between particle phase and flow phase. The calculation of the momentum and energy exchange across two phases is the key point during the procedure, which can be capable of maintaining the conservation of this system. For particles, tracking their trajectories within the mesh and elements is essential. Thereafter an ALE method instead of Lagrangian scheme is derived for the discretization of the equation to perform better with the complex motion of particles and flow. We apply the HLLC-2D Riemann solver to substitute the HLLC solver which relaxes the limitation for continuous fluxes along the edge. Meanwhile we propose a method for searching particles and provide a CFL-like condition based on this. Finally, we show some numerical tests to analysis the influence of particles on fluid and get a following effect between two phases. The model and the numerical method are validated through numerical tests to show its robustness and accuracy.
title An ALE numerical method with HLLC-2D solver for the two-phase flow ejecta transporting model
topic Numerical Analysis
url https://arxiv.org/abs/2405.06046