A New Third-Order Finite Difference WENO Scheme to Improve Convergence Rate at Critical Points

IF 1.1 4区工程技术 Q4 MECHANICS

International Journal of Computational Fluid Dynamics Pub Date : 2022-11-26 DOI:10.1080/10618562.2023.2237898

Xiaogang Li, Tian Xia, Yuxi Deng, Siqi Yang, Yonbin Ge

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引用次数: 0

Abstract

In this work, a new, improved third-order finite difference weighted essentially non-oscillatory scheme is presented for one- and two-dimensional hyperbolic conservation laws and associated problems. The parameter p which is regulate dissipation is introduced in the nonlinear weights in the framework of the conventional WENO-Z scheme, and the higher-order global smoothness indicator is obtained by the idea of Wang [Wang, Y. H., Y. L. Du, K. L. Zhao and L. Yuan. 2020. ‘A Low-dissipation Third-order Weighted Essentially Nonoscillatory Scheme with a New Reference Smoothness Indicator’. International Journal for Numerical Methods in Fluids. 92 (9): 1212–1234.], the sufficient condition of nonlinear weights is proved by using Taylor expansions. Finally, the value range of parameter p is obtained. The proposed scheme is verified to achieve the optimal order near critical points by linear convection equations with different initial values, and the high-resolution characteristic of the present scheme is proved on a variety of one- and two- dimensional standard numerical examples. Numerical results demonstrate that the proposed scheme gives better performance in comparison with the other third-order WENO schemes.

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一种提高临界点收敛速度的三阶有限差分WENO新格式

在这项工作中，提出了一种新的改进的三阶有限差分加权本质非振荡格式，用于一维和二维双曲守恒律和相关问题。在传统WENO-Z格式框架的非线性权值中引入了调节耗散参数p，并采用Wang的思想得到了高阶全局平滑指标[j] . Wang, yyh .， Du yl .， Zhao kl .， Yuan L. 2020。一种具有新的参考平滑指标的低耗散三阶加权基本非振荡格式。流体力学与工程学报，2009(9):1212-1234。]，用泰勒展开式证明了非线性权值存在的充分条件。最后得到参数p的取值范围。通过不同初值的线性对流方程，验证了该格式在临界点附近的最优阶，并在各种一维和二维标准数值算例上证明了该格式的高分辨率特性。数值结果表明，与其他三阶WENO算法相比，该算法具有更好的性能。

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来源期刊

International Journal of Computational Fluid Dynamics 物理-力学

CiteScore

2.70

自引率

7.70%

发文量

审稿时长

3 months

期刊介绍： The International Journal of Computational Fluid Dynamics publishes innovative CFD research, both fundamental and applied, with applications in a wide variety of fields. The Journal emphasizes accurate predictive tools for 3D flow analysis and design, and those promoting a deeper understanding of the physics of 3D fluid motion. Relevant and innovative practical and industrial 3D applications, as well as those of an interdisciplinary nature, are encouraged.