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Hauptverfasser: Li, Xuzhu, Li, Chun, Li, Xiaokai, Li, Wenzhuo, Tang, Mingze, Zeng, Yadong, Zhu, Zhengping
Format: Preprint
Veröffentlicht: 2024
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Online-Zugang:https://arxiv.org/abs/2408.14140
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author Li, Xuzhu
Li, Chun
Li, Xiaokai
Li, Wenzhuo
Tang, Mingze
Zeng, Yadong
Zhu, Zhengping
author_facet Li, Xuzhu
Li, Chun
Li, Xiaokai
Li, Wenzhuo
Tang, Mingze
Zeng, Yadong
Zhu, Zhengping
contents We present the IAMReX, an adaptive and parallel solver for particle-resolved simulations on the multi-level grid. The fluid equations are solved using a finite-volume scheme on the block-structured semi-staggered grids with both subcycling and non-subcycling methods. The particle-fluid interaction is resolved using the multidirect forcing immersed boundary method. The associated Lagrangian markers used to resolve fluid-particle interface only exist on the finest-level grid, which greatly reduces memory usage. The volume integrals are numerically calculated to capture the free motion of particles accurately, and the repulsive potential model is also included to account for the particle-particle collision. We demonstrate the versatility, accuracy, and efficiency of the present multi-level framework by simulating fluid-particle interaction problems with various types of kinematic constraints. The cluster of monodisperse particles case is presented at the end to show the capability of the current solver in handing with multiple particles. The source code and testing cases used in this work can be accessed at https://github.com/ruohai0925/IAMR/tree/development. Input scripts and raw postprocessing data are also available for reproducing all results.
format Preprint
id arxiv_https___arxiv_org_abs_2408_14140
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle An open-source, adaptive solver for particle-resolved simulations with both subcycling and non-subcycling methods
Li, Xuzhu
Li, Chun
Li, Xiaokai
Li, Wenzhuo
Tang, Mingze
Zeng, Yadong
Zhu, Zhengping
Fluid Dynamics
Computational Physics
We present the IAMReX, an adaptive and parallel solver for particle-resolved simulations on the multi-level grid. The fluid equations are solved using a finite-volume scheme on the block-structured semi-staggered grids with both subcycling and non-subcycling methods. The particle-fluid interaction is resolved using the multidirect forcing immersed boundary method. The associated Lagrangian markers used to resolve fluid-particle interface only exist on the finest-level grid, which greatly reduces memory usage. The volume integrals are numerically calculated to capture the free motion of particles accurately, and the repulsive potential model is also included to account for the particle-particle collision. We demonstrate the versatility, accuracy, and efficiency of the present multi-level framework by simulating fluid-particle interaction problems with various types of kinematic constraints. The cluster of monodisperse particles case is presented at the end to show the capability of the current solver in handing with multiple particles. The source code and testing cases used in this work can be accessed at https://github.com/ruohai0925/IAMR/tree/development. Input scripts and raw postprocessing data are also available for reproducing all results.
title An open-source, adaptive solver for particle-resolved simulations with both subcycling and non-subcycling methods
topic Fluid Dynamics
Computational Physics
url https://arxiv.org/abs/2408.14140