Quasi-linear analysis of dispersion relation preservation for nonlinear schemes

IF 2.9 3区 工程技术 Q2 ENGINEERING, MECHANICAL Advances in Aerodynamics Pub Date : 2022-04-01 DOI:10.1186/s42774-022-00104-2
Xu, Fengyuan, Yan, Pan, Li, Qin, You, Yancheng
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Abstract

In numerical simulations of complex flows with discontinuities, it is necessary to use nonlinear schemes. The spectrum of the scheme used has a significant impact on the resolution and stability of the computation. Based on the approximate dispersion relation method, we combine the corresponding spectral property with the dispersion relation preservation proposed by De and Eswaran (J Comput Phys 218:398–416, 2006) and propose a quasi-linear dispersion relation preservation (QL-GRP) analysis method, through which the group velocity of the nonlinear scheme can be determined. In particular, we derive the group velocity property when a high-order Runge–Kutta scheme is used and compare the performance of different time schemes with QL-GRP. The rationality of the QL-GRP method is verified by a numerical simulation and the discrete Fourier transform method. To further evaluate the performance of a nonlinear scheme in finding the group velocity, new hyperbolic equations are designed. The validity of QL-GRP and the group velocity preservation of several schemes are investigated using two examples of the equation for one-dimensional wave propagation and the new hyperbolic equations. The results show that the QL-GRP method integrated with high-order time schemes can determine the group velocity for nonlinear schemes and evaluate their performance reasonably and efficiently.
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非线性格式色散关系保持的拟线性分析
在具有不连续结构的复杂流动的数值模拟中,必须采用非线性格式。所用方案的频谱对计算的分辨率和稳定性有重要影响。在近似色散关系方法的基础上,将相应的谱性质与De和Eswaran (J computational Phys 218:398-416, 2006)提出的色散关系保持相结合,提出了一种准线性色散关系保持(QL-GRP)分析方法,通过该方法可以确定非线性格式的群速度。特别地,我们推导了使用高阶龙格-库塔格式时的群速度特性,并与QL-GRP比较了不同时间格式的性能。通过数值模拟和离散傅里叶变换方法验证了QL-GRP方法的合理性。为了进一步评价非线性格式求解群速度的性能,设计了新的双曲型方程。通过两个一维波传播方程和新的双曲方程的例子,研究了QL-GRP的有效性和几种格式的群速度保持性。结果表明,结合高阶时间格式的QL-GRP方法可以合理有效地确定非线性格式的群速度,并对其性能进行评价。
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来源期刊
CiteScore
4.50
自引率
4.30%
发文量
35
审稿时长
11 weeks
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