Numerical Methods for Linear Stability Analysis of Fluid Flows

Mizushima Jiro, Akinaga Takeshi

doi:10.11540/bjsiam.16.4_306

Bibliographic Information

Other Title

流れの線形安定性の数値解析法
ナガレノセンケイアンテイセイノスウチカイセキホウ

Search this article

Description

It was shown by Ruell and Takens that fluid motion can be chaotic with three distinct frequencies being aquired due to instabilities of flow. Thus, the instability of a steady flow is the first step to chaos and hence to turbulence. After overviewing the scenario of transitions of flow to turbulence briefly, we show four numerical methods to analyze the linear stability of steady flows: numerical simulation of a set of linear equations for a disturbance, successive over relaxation method, Arnoldi method, and shift and inverse power method. We discuss the merit of each numerical method together with some issues arising in numerical stability analyses of flow past a circular cylinder, taking it as an example.

Journal

Bulletin of the Japan Society for Industrial and Applied Mathematics

Bulletin of the Japan Society for Industrial and Applied Mathematics 16 (4), 306-318, 2006

The Japan Society for Industrial and Applied Mathematics

Details 詳細情報について

CRID: 1390001205765496704

NII Article ID: 110006152531

NII Book ID: AN10288886

ISSN: 09172270; 24321982

DOI: 10.11540/bjsiam.16.4_306

NDL BIB ID: 8627715

Web Site: http://id.ndl.go.jp/bib/8627715; https://ndlsearch.ndl.go.jp/books/R000000004-I8627715

Text Lang: ja

Data Source

JaLC
NDL Search
CiNii Articles

Abstract License Flag: Disallowed

Export

Report a problem