Your search keyword '"Matrix stability analysis"' showing total 4 results

1. Version [1.1]—[MSAT: Matrix stability analysis tool for shock-capturing schemes]

Author

Weijie Ren, Wenjia Xie, Ye Zhang, Hang Yu, and Zhengyu Tian

Subjects

Shock instability, Matrix stability analysis, High-order reconstruction, Computer software, QA76.75-76.765

Abstract

The numerical shock instability problem significantly limits the application of the finite volume method in hypersonic flow simulations, especially for high-order schemes, which will encounter more severe shock instability problems. In the previous work, the MSAT (matrix stability analysis tool) was introduced to quantitatively analyze the numerical shock instability problem. However, the utilization of the three-point reconstruction stencil in the original version of MSAT presents challenges in conducting investigations into high-order schemes. The current work provides an extension of MSAT by extending the reconstruction stencil to five points, a challenging but necessary endeavor for high-order schemes. This extension enables MSAT to provide analyses for schemes with high-order reconstruction methods. Furthermore, the updated MSAT can be utilized to investigate the impact of characteristic variable reconstruction on the shock instability problem. Results demonstrate the reliability of the updated MSAT and reveal novel characteristics in the shock instability of high-order schemes. Consequently, the updated MSAT will contribute to the investigation of shock instabilities for high-order schemes, ultimately aiding in mitigating this challenging problem.

Published

2024

2. MSAT: Matrix stability analysis tool for shock-capturing schemes

Author

Weijie Ren, Wenjia Xie, Ye Zhang, Hang Yu, and Zhengyu Tian

Subjects

Shock instability, Matrix stability analysis, MUSCL, ROUND, Computer software, QA76.75-76.765

Abstract

The simulation of supersonic or hypersonic flows often suffers from numerical shock instabilities if the flow field contains strong shocks, limiting the further application of shock-capturing schemes. In this paper, we develop the unified matrix stability analysis method for schemes with three-point stencils and present MSAT (matrix stability analysis tool), an open-source tool to quantitatively analyze the shock instability problem. Based on the finite-volume approach on the structured grid, MSAT can be employed to investigate the mechanism of the shock instability problem, evaluate the robustness of numerical schemes, and then help to develop robust schemes. Also, MSAT has the ability to analyze the practical simulation of supersonic or hypersonic flows, evaluate whether it will suffer from shock instabilities, and then assist in selecting appropriate numerical schemes accordingly. As a result, MSAT is a helpful tool that can investigate the shock instability problem and help to cure it.

Published

2023

3. MSAT: Matrix stability analysis tool for shock-capturing schemes

Author

Ren, Weijie, primary, Xie, Wenjia, additional, Zhang, Ye, additional, Yu, Hang, additional, and Tian, Zhengyu, additional

Published

2023

4. Version [1.1]—[MSAT: Matrix stability analysis tool for shock-capturing schemes]

Author

Ren, Weijie, Xie, Wenjia, Zhang, Ye, Yu, Hang, and Tian, Zhengyu

Published

2024