关键词: 引射式冲压发动机;引射喷管;压力自动调节系统;高空试车台;数值仿真

Abstract: The zero second flow field and the pressure of the blind cavity in the annular supersonic air ejector were numerically investigated using two dimensional axial symmetry average Reynolds equations and the standard two equation k ε turblent models. Two order upstream scheme and explicit Runge Kutte algorithm were used to solve these equations. The results show that the ratio of the blind cavity pressure to the eject flow total pressure remains almost constant when the geometry parameters of the ejector is fixed. In the condition that the nozzle Mach number keeping constant, the area ratio of the nozzle exit to the mixing chamber entrance is smaller the lower the pressure of the blind cavity. The better the performance of the diffuser and the lower the total pressure needed for starting. The conclusions can be a guide to supersonic air ejector design.

Key words: Ejector ramjet engine;Shrouded nozzle;Automatic pressure regulating system;Altitude test stand;Numerical simulation