关键词: 管道火箭；火箭喷流；支板射流；引射；数值模拟

Abstract: In order to investigate the influence on the duct flow fields，ejecting performance by changing the embedded rocket geometric distribution，operational conditions and geometric parameters，the cold flow fields in a duct embedded rockets were simulated numerically by using the Favre-Averaged Navier-Stokes equations with the two-equation k - ω SST turbulence model. The effects of the positions and combustion chamber pressure of embedded rockets on the duct flow field and the secondary flow injection performance were studied comparatively. The results of the calculation of different parameters show that: (1) The secondary flow mass flux grows larger as the combustion chamber pressure of the primary rocket increases as long as the rocket expanding jet current does not attach the duct side wall，after that it is difficult to increase the secondary flow entrainments. (2) As the inflow Mach number increased，ram compression role of the secondary flow becomes important，and it can be used to modulate duct flow field. (3) The embedded rocket operational conditions，which is consistent with the inflow conditions at low vehicle flight speed，could not meet the full power demand of the rocket propelling vehicle at takeoff，and duct embedded rocket concept such as strut jet concept will be more suitable for flight phase excluding takeoff.

Key words: Ducted rocket engine；Rocket jet；Strut jet；Ejection；Numerical simulation