Two types of longitudinal vortices are found to arise from distorted, migrating wakes convecting through a low-pressure turbine stator passage. The primary vortices emerge within the free stream as the wake is subjected to irrotational strains. Their axes align approximately with the local mean wake velocity. They are dragged over the surface and induce secondary vortices near the wall, which have the opposite sense of rotation to the primary vortices. Although they form on the concave side, these secondary vortices are neither produced, nor sustained by Görtler instability; rather, they are a consequence of severely straining the passing wakes.

Evidence is drawn from a numerical simulation of the unsteady, incompressible flow through a turbine stator passage with and without upstream turbulent wakes. The computations were performed with 2.5 and 5.7 × 107 grid points on a parallel computer.