An improved solid boundary treatment for wave–float interactions using ISPH method

Xing Zheng; Xipeng Lv; Qingwei Ma; Wenyang Duan; Abbas Khayyer; Songdong Shao

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An improved solid boundary treatment for wave–float interactions using ISPH method

机译：使用ISPH方法改进的波-浮相互作用的固体边界处理

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摘要

The Smoothed Particle Hydrodynamics (SPH) method has proved to have great potentials in dealing with the wave-structure interactions. Compared with the Weakly Compressible SPH (WCSPH) method, the ISPH approach solves the pressure by using the pressure Poisson equation rather than the equation of state. This could provide a more stable and accurate pressure field that is important in the study of wave-structure interactions. This paper improves the solid boundary treatment of ISPH by using a high accuracy Simplified Finite Difference Interpolation (SFDI) scheme for the 2D wave-structure coupling problems, especially for free-moving structure. The proposed method is referred as the ISPH_BS. The model improvement is demonstrated by the documented benchmark tests and laboratory experiment covering various wave-structure interaction applications.

机译：光滑粒子流体动力学（SPH）方法已被证明在处理波浪结构相互作用方面具有巨大的潜力。与弱压缩SPH（WCSPH）方法相比，ISPH方法通过使用压力泊松方程而非状态方程来求解压力。这可以提供更稳定和准确的压力场，这对于研究波浪结构相互作用非常重要。本文针对二维波结构耦合问题，尤其是自由移动结构，采用高精度简化有限差分插值（SFDI）方案改进了ISPH的固体边界处理。所提出的方法称为ISPH_BS。通过记录的基准测试和涵盖各种波结构相互作用应用的实验室实验证明了模型的改进。

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《International Journal of Naval Architecture and Ocean Engineering》 |2018年第3期|共19页
作者
Xing Zheng; Xipeng Lv; Qingwei Ma; Wenyang Duan; Abbas Khayyer; Songdong Shao;
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中图分类海洋学;
关键词
ISPHMoving boundarySFDIWave–float interactionsISPH_BS;

机译：ISPH移动边界SFDIWave-Float交互作用ISPH_BS;

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1. Calculation of hydrodynamic loads at solid boundaries of the computation domain by the ISPH method in problems with free boundaries [J] . K. E. AFANASEV, R. S. MAKARCHUK Russian Journal of Numerical Analysis and Mathematical Modelling . 2011,第5期

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2. Simulation of dynamic fluid-solid interactions with an improved direct-forcing immersed boundary method [J] . Shengbin Di, Wei Ge 颗粒学报（英文版） . 2015,第001期

机译：改进的直接强迫沉浸边界法模拟动态流固耦合
3. Computational study of shock-wave interaction with solid obstacles using immersed boundary methods [J] . Chaudhuri A., Hadjadj A., Sadot O., International Journal for Numerical Methods in Engineering . 2012,第8期

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5. Analysis of finite element based numerical methods for acoustic waves, elastic waves, and fluid-solid interactions in the frequency domain. [D] . Cummings, Peter Anthony. 2001

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7. An Improved Solid Boundary Treatment for Wave-Float Interactions Using ISPH Method [O] . Zheng X., Lv X., Ma Q., 100

机译：用IspH方法改进的波浮相互作用固体边界处理
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An improved solid boundary treatment for wave–float interactions using ISPH method

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