STABILITY AND THREE-WAVE INTERACTION OF DISTURBANCES IN A SUPERSONIC BOUNDARY LAYER WITH COOLING

In linear and nonlinear approach (weakly nonlinear theory of stability) interaction of disturbances on a boundary layer of compressed gas is considered at surface cooling. The regimes of moderate (Max number М = 2) and high (М = 5.35) are considered at supersonic speeds. It is established that the surface cooling leads to considerable change of linear evolution of disturbances: the vortical disturbances of the first mode are stabilised, and the acoustic disturbances of the second mode are destabilised, the change degree is defined by the degree of change of the temperature factor. The nonlinear interaction in three-wave systems on high (М = 5.35) supersonic regimes on a boundary layer of compressed gas is carried out between waves of the different nature (acoustic and vortical) in a regime of a parametrical resonance. As a rating wave the flat acoustic wave which raises three-dimensional subharmonic components of the vortical modes. However, the similar interactions for vortical waves at М = 2 considerably weaken. It is possible to expect that surface cooling will lead to delay of a laminar regime at М = 2 and to accelerate of turbulization at М = 5.35.

Keywords:
supersonic boundary layer, hydrodynamic stability, laminar-turbulent transition.
УДК 532.526

STABILITY AND THREE-WAVE INTERACTION OF DISTURBANCES IN A SUPERSONIC BOUNDARY LAYER WITH COOLING