Numerical simulation of the ferrohydrodynamics flow using an unconditionally stable second‐order scheme

ZAMM - Journal of Applied Mathematics and Mechanics Pub Date : 2024-04-19 DOI:10.1002/zamm.202400025
Aytura Keram, Pengzhan Huang
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Abstract

In this paper, we design a decoupled, linear, unconditionally stable and fully discrete numerical scheme for a ferrohydrodynamics system with second‐order temporal accuracy. This scheme is based on a second‐order backward difference formula for time derivative terms and linearization extrapolation for nonlinear terms, which produces a series of decoupled linear equations and solves effectively this nonlinear and multiphysical coupled system. Meanwhile, we show that the scheme is unconditionally stable. Finally, some numerical experiments are provided to verify the theoretical finding and illustrate the accuracy and efficiency of the proposed scheme.
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使用无条件稳定的二阶方案对铁流体力学流动进行数值模拟
在本文中,我们为铁流体力学系统设计了一种解耦的、线性的、无条件稳定的、完全离散的数值方案,具有二阶时间精度。该方案基于时间导数项的二阶后向差分公式和非线性项的线性化外推法,产生了一系列解耦线性方程,有效地求解了这个非线性和多物理耦合系统。同时,我们还证明了该方案是无条件稳定的。最后,我们提供了一些数值实验来验证理论结论,并说明了所提方案的准确性和高效性。
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ZAMM - Journal of Applied Mathematics and Mechanics
ZAMM - Journal of Applied Mathematics and Mechanics
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