Study of the shock motion in a hypersonic shock system turbulent boundary-layer interaction


Autoria(s): Lee CB; Wang S
Data(s)

1995

Resumo

Wall pressure fluctuations and surface heat transfer signals have been measured in the hypersonic turbulent boundary layer over a number of compression-corner models. The distributions of the separation shock oscillation frequencies and periods have been calculated using a conditional sampling algorithm. In all cases the oscillation frequency distributions are of broad band, but the most probable frequencies are low. The VITA method is used for deducing large scale disturbances at the wall in the incoming boundary layer and the separated flow region. The results at present showed the existence of coherent structures in the two regions. The zero-cross frequencies of the large scale structures in the two regions are of the same order as that of the separation shock oscillation. The average amplitude of the large scale structures in the separated region is much higher than that in the incoming boundary layer. The length scale of the separation shock motion region is found to increase with the disturbance strength. The results show that the shock oscillation is of inherent nature in the shock wave/turbulent boundary layer interaction with separation. The shock oscillation is considered to be the consequence of the coherent structures in the separated region.

Identificador

http://dspace.imech.ac.cn/handle/311007/39210

http://www.irgrid.ac.cn/handle/1471x/4951

Idioma(s)

英语

Fonte

Experiments In Fluids.1995,19(3):143-149

Tipo

期刊论文