Acta mathematica scientia,Series B ›› 2024, Vol. 44 ›› Issue (3): 1036-1045.doi: 10.1007/s10473-024-0315-8

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THE NONLINEAR STABILITY OF PLANE PARALLEL SHEAR FLOWS WITH RESPECT TO TILTED PERTURBATIONS

Lanxi XU*, Fangfang GUAN   

  1. College of Mathematics and Physics, Beijing University of Chemical Technology, Beijing 100029, China
  • Received:2022-10-11 Revised:2023-03-23 Online:2024-06-25 Published:2024-05-21
  • Contact: *Lanxi XU, E-mail:xulx@mail.buct.edu.cn
  • About author:Fangfang GUAN, erytar@outlook.com
  • Supported by:
    Xu's research was supported by the National Natural Science Foundation of China (21627813).

Abstract: The nonlinear stability of plane parallel shear flows with respect to tilted perturbations is studied by energy methods. Tilted perturbation refers to the fact that perturbations form an angle $\theta\in(0,\frac{\pi}{2})$ with the direction of the basic flows. By defining an energy functional, it is proven that plane parallel shear flows are unconditionally nonlinearly exponentially stable for tilted streamwise perturbation when the Reynolds number is below a certain critical value and the boundary conditions are either rigid or stress-free. In the case of stress-free boundaries, by taking advantage of the poloidal-toroidal decomposition of a solenoidal field to define energy functionals, it can be even shown that plane parallel shear flows are unconditionally nonlinearly exponentially stable for all Reynolds numbers, where the tilted perturbation can be either spanwise or streamwise.

Key words: plane parallel shear flows, energy method, energy functional, nonlinear stability, Reynolds number

CLC Number: 

  • 76E05
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