一种新型高阶多分辨率三角函数 WENO 方案,具有双曲守恒定律的自适应线性权重

IF 2.5 3区 工程技术 Q3 COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS Computers & Fluids Pub Date : 2024-07-20 DOI:10.1016/j.compfluid.2024.106372
Yan Zhang , Jun Zhu
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引用次数: 0

摘要

本文提供了一系列具有自适应线性权重的高阶多分辨率三角加权基本非振荡方案,用于在有限差分框架下求解双曲守恒定律,这些方案被称为 MR-TWENO-ALW 方案。这些新的 TWENO 方案仅使用定义在两个不等长空间模板上的信息,无需引入其他模板即可达到最佳高阶精度。为了提高线性权重的灵活性,我们设计了一种自适应线性权重过程,即在两个简单条件下自动调整两个线性权重。这确保了这些方案在平滑区域获得最佳精度阶次,精确逼近急剧梯度,并抑制强不连续性附近的高振荡。这些新的 MR-TWENO-ALW 方案可以实现高光谱分辨率,并在大规模工程应用中保持较低的计算成本。这些新方案构造简单,可在其他计算网格上扩展到任意高阶精度。大量一维和二维数值实例证明了这些新的 MR-TWENO-ALW 方案的可行性。
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A new type of high-order multi-resolution trigonometric WENO schemes with adaptive linear weights for hyperbolic conservation laws

This article provides a series of high-order multi-resolution trigonometric weighted essentially non-oscillatory schemes with adaptive linear weights for solving hyperbolic conservation laws in a finite difference framework, which are termed as the MR-TWENO-ALW schemes. These new TWENO schemes only use the information defined on two unequal-sized spatial stencils and do not need to introduce other stencils to achieve optimal high-order accuracy. To increase the flexibility of the linear weights, we design an adaptive linear weight process which is an automatic adjustment of two linear weights with two simple conditions. This ensures the schemes to get the optimal order of accuracy in smooth regions, accurately approximate sharp gradients, and suppress high oscillations near strong discontinuities. These new MR-TWENO-ALW schemes can achieve high spectral resolution and maintain low computational cost in large scale engineering applications. And these new schemes are simple in the construction and could be extended to arbitrarily high-order accuracy on other computing meshes. Extensive one-dimensional and two-dimensional numerical examples are used to testify the feasibility of these new MR-TWENO-ALW schemes.

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来源期刊
Computers & Fluids
Computers & Fluids 物理-计算机:跨学科应用
CiteScore
5.30
自引率
7.10%
发文量
242
审稿时长
10.8 months
期刊介绍: Computers & Fluids is multidisciplinary. The term ''fluid'' is interpreted in the broadest sense. Hydro- and aerodynamics, high-speed and physical gas dynamics, turbulence and flow stability, multiphase flow, rheology, tribology and fluid-structure interaction are all of interest, provided that computer technique plays a significant role in the associated studies or design methodology.
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