2024-04-16T13:32:24Z
https://air.repo.nii.ac.jp/oai
oai:air.repo.nii.ac.jp:00000484
2023-07-25T11:17:45Z
590:591:592:595
Linear Stability of Impinging Jet in a Symmetric T-shape Channel
T型分岐流路における衝突噴流の線形安定性
足立, 高弘
ADACHI, Takahiro
We have conducted the linear stability analysis of impinging jet flow in a symmetric T-shape channel by using the spectral element method. The flow field is assumed to be two-dimensional and incompressible. The flow is in a steady-state and symmetric with the centerline of the channel at a relatively small Reynolds number, whereas an asymmetric flow occurs at a critical Reynolds number due to instability. In order to evaluate the critical Reynolds number, the linear stability theory is applied to the complex laminar flow with a stagnation point in the T-shape channel by constituting the generalized eigenvalue problem of matrix form. The critical Reynolds number can be determined by the sign of a linear growth rate of the eigenvalues. It is found that the steady symmetric flow bifurcates to the asymmetric steady one as a result of Pitchfork bifurcation.
departmental bulletin paper
秋田大学工学資源学部
2004-10-29
VoR
application/pdf
秋田大学工学資源学部 研究報告
25
21
27
Scientific and technical reports of Faculty of Engineering and Resource Science,Akita University
13457241
AA11410906
https://air.repo.nii.ac.jp/record/484/files/KJ00004261121.pdf
jpn