Numerical implementation of an extended multi-resolution SPH-PD coupling model for fluid-structure interaction problem with impacting failure

IF 4.3 2区 工程技术 Q1 ENGINEERING, OCEAN Applied Ocean Research Pub Date : 2024-07-13 DOI:10.1016/j.apor.2024.104121
Zeyang Yu, Xuehao Yao, Ding Chen, Qipeng Ma, Xiaolong Lyu, Dan Huang
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Abstract

Considering the fluid-structure impacting failure problems with large size, this paper presents an extended multi-resolution smoothed particle hydrodynamics (SPH)-peridynamics (PD) coupling model. The influence domain and the interpolation smoothing length are innovatively introduced to reconstruct governing equations for interactions between particles of diverse resolutions, ensuring system-wide momentum conservation. Then, an adaptive multi-level cell neighborhood search (AMCNS) algorithm is presented, designed to reduce the time of neighborhood search in multi-resolution simulations. Several 2D and 3D validation tests demonstrate the accuracy of the multi-resolution SPH-PD model in describing solid deformation and fluid impact pressure. The multi-resolution SPH-PD model significantly enhances computational efficiency and can depict the process of structural failure under conditions where a wide difference in scale between waves and structures.

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扩展多分辨率 SPH-PD 耦合模型的数值实现,用于解决具有冲击破坏作用的流固耦合问题
考虑到大尺寸流体-结构冲击破坏问题,本文提出了一种扩展的多分辨率平滑粒子流体力学(SPH)-超动力学(PD)耦合模型。该模型创新性地引入了影响域和插值平滑长度,以重建不同分辨率粒子间相互作用的支配方程,确保全系统动量守恒。然后,介绍了一种自适应多级单元邻域搜索(AMCNS)算法,旨在减少多分辨率模拟中的邻域搜索时间。多个二维和三维验证测试证明了多分辨率 SPH-PD 模型在描述固体变形和流体冲击压力方面的准确性。多分辨率 SPH-PD 模型大大提高了计算效率,并能描述波浪和结构之间尺度差异较大条件下的结构破坏过程。
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来源期刊
Applied Ocean Research
Applied Ocean Research 地学-工程:大洋
CiteScore
8.70
自引率
7.00%
发文量
316
审稿时长
59 days
期刊介绍: The aim of Applied Ocean Research is to encourage the submission of papers that advance the state of knowledge in a range of topics relevant to ocean engineering.
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