Boundary layer around a rotating cylindre

By Slim Ibrahim

Appears in collection : 2026 - T2 - WS3 - Idealised mathematical models for geophysical flows

In this talk, I will first review the boundary layer problem and flow separation in a viscous incompressible fluid past a rigid cylindrical obstacle undergoing constant, but fast rotation (compared to a uniform background flow). Then, I will show how to solve the boundary layer equations, give a solvability criterion for the matched asymptotic expansion, and compare our findings with the geometric Feynman–Lagerstrom criterion recently revisited by Drivas–Iyer–Nguyen. New features seem to arise from the competition between the vorticity production and rotation-induced tangential transport, leading to boundary layer behaviour distinct from the classical Prandtl or Stokes layers. This is a joint work with Y. Maekawa, Kyoto University.

Co-authors: Yasunori Maekawa

Information about the video

Citation data

Domain(s)

Last related questions on MathOverflow

You have to connect your Carmin.tv account with mathoverflow to add question

Ask a question on MathOverflow




Register

  • Bookmark videos
  • Add videos to see later &
    keep your browsing history
  • Comment with the scientific
    community
  • Get notification updates
    for your favorite subjects
Subscribe illustration
Give feedback