The linear stability of supersoinc mixing layer with the mean velocity profile approximated by the hyperbolic tangent is studied. The convective Mach number of mixing layer is 2 and the temperature ratio is 1. A new classification of disturbance mode of mixing layer is presented to unify the existing results in literature and the new results in this paper. The mixing layer has supersonic and subsonic mode according the disturbance phase speed. Then the supersonic mode can be classified into mixing mode and asouctic mode. The mixing mode can be further classified into sbsonic-supersonic mode and supersonic-subsonic mode according the relative speed between disturbance phase speed and the free flow speed of mixing layer, which correspond to fast mode and slow mode, respectively. The pahse speed of acoustic mode are supersonic with respet to the free flow in both sides of mixing layer and some unstable acoustic mode are found. The acoustic mode has radiation characteristics in both sides of mixing layer and results in a series of expansion and compression fans.

• 出版日期2019-6
• 单位中国航天空气动力技术研究院