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Autores principales: Guo, Shihan, Sun, Yizhong, Wang, Yifan, Yue, Xiaohe, Zheng, Haibiao
Formato: Preprint
Publicado: 2024
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Acceso en línea:https://arxiv.org/abs/2409.15618
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author Guo, Shihan
Sun, Yizhong
Wang, Yifan
Yue, Xiaohe
Zheng, Haibiao
author_facet Guo, Shihan
Sun, Yizhong
Wang, Yifan
Yue, Xiaohe
Zheng, Haibiao
contents We investigate the fluid-poroelastic structure interaction problem in a moving domain, governed by Navier-Stokes-Biot (NSBiot) system. First, we propose a fully parallelizable, loosely coupled scheme to solve the coupled system. At each time step, the solution from the previous time step is used to approximate the coupling conditions at the interface, allowing the original coupled problem to be fully decoupled into seperate fluid and structure subproblems, which are solved in parallel. Since our approach utilizes a loosely coupled scheme, no sub-iterations are required at each time step. Next, we conduct the energy estimates of this splitting method for the linearized problem (Stokes-Biot system), which demonstrates that the scheme is unconditionally stable without any restriction of the time step size from the physical parameters. Furthermore, we illustrate the first-order accuracy in time through two benchmark problems. Finally, to demonstrate that the proposed method maintains its excellent stability properties also for the nonlinear NSBiot system, we present numerical results for both $2D$ and $3D$ NSBiot problems related to real-world physical applications.
format Preprint
id arxiv_https___arxiv_org_abs_2409_15618
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle A Fully Parallelizable Loosely Coupled Scheme for Fluid-Poroelastic Structure Interaction Problems
Guo, Shihan
Sun, Yizhong
Wang, Yifan
Yue, Xiaohe
Zheng, Haibiao
Numerical Analysis
We investigate the fluid-poroelastic structure interaction problem in a moving domain, governed by Navier-Stokes-Biot (NSBiot) system. First, we propose a fully parallelizable, loosely coupled scheme to solve the coupled system. At each time step, the solution from the previous time step is used to approximate the coupling conditions at the interface, allowing the original coupled problem to be fully decoupled into seperate fluid and structure subproblems, which are solved in parallel. Since our approach utilizes a loosely coupled scheme, no sub-iterations are required at each time step. Next, we conduct the energy estimates of this splitting method for the linearized problem (Stokes-Biot system), which demonstrates that the scheme is unconditionally stable without any restriction of the time step size from the physical parameters. Furthermore, we illustrate the first-order accuracy in time through two benchmark problems. Finally, to demonstrate that the proposed method maintains its excellent stability properties also for the nonlinear NSBiot system, we present numerical results for both $2D$ and $3D$ NSBiot problems related to real-world physical applications.
title A Fully Parallelizable Loosely Coupled Scheme for Fluid-Poroelastic Structure Interaction Problems
topic Numerical Analysis
url https://arxiv.org/abs/2409.15618