期刊
APPLIED MATHEMATICS AND MECHANICS-ENGLISH EDITION
卷 37, 期 8, 页码 1013-1030出版社
SHANGHAI UNIV
DOI: 10.1007/s10483-016-2114-8
关键词
three-dimensional linear parabolized stability equation (3D-LPSE); bi-global instability; three-dimensional (3D) boundary layer; Gortler flow; crossflow vortex
资金
- National Natural Science Foundation of China [11272183, 11572176, 11402167, 11202147, 11332007]
- National Program on Key Basic Research Project of China [2014CB744801]
It is widely accepted that a robust and efficient method to compute the linear spatial amplified rate ought to be developed in three-dimensional (3D) boundary layers to predict the transition with the e (N) method, especially when the boundary layer varies significantly in the spanwise direction. The 3D-linear parabolized stability equation (3D-LPSE) approach, a 3D extension of the two-dimensional LPSE (2D-LPSE), is developed with a plane-marching procedure for investigating the instability of a 3D boundary layer with a significant spanwise variation. The method is suitable for a full Mach number region, and is validated by computing the unstable modes in 2D and 3D boundary layers, in both global and local instability problems. The predictions are in better agreement with the ones of the direct numerical simulation (DNS) rather than a 2D-eigenvalue problem (EVP) procedure. These results suggest that the plane-marching 3D-LPSE approach is a robust, efficient, and accurate choice for the local and global instability analysis in 2D and 3D boundary layers for all free-stream Mach numbers.
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