关键词: 进气道;激波;湍流边界层;干扰;分离区;耦合效应;变后掠

Abstract: In order to study characteristics of curved backswept compression corner shock wave/turbulent boundary layer interactions between the forebody compression shock wave of inward turning inlet and the boundary layer of the body， inward turning inlet with rectangular capture line and straight bus cone is simplified. The simplified model is researched by numerical simulation method. The characteristics of the uncoupled and coupled curved swept compression corner shock/turbulent boundary layer are analyzed. The results show that the separation zone formed by the uncoupled model is machete-shaped， and the maximum value of the separation zone is located at the position y=-0.19H， （H is the height of the rectangular capture line），and the interaction with variable sweep angle no longer conforms to the quasi-conical similarity. The separation zone formed by the coupled model is a symmetric crescent-shaped， and the maximum value of the separation zone is located at the position y=0. And low-momentum fluid accumulates in the center of the inlet. Compared with uncoupled， the maximum value of the separation zone increased by 51%， and the boundary layer thickness of inlet exit increases. It is also found that the influence range of the coupling effect is limited. In the flow interval of |y|>0.6H at the leading edge of the compression corner， it is basically unaffected by the coupling effect.

Key words: Inlet;Shock wave;Turbulence boundary layer;Interaction;Separation zone;Coupling effect;Variable backward sweep