摘要
建立了轴对称矢量喷管数学模型和带这种矢量喷管的发动机数学模型 ,研究了矢量喷管偏转时引起的发动机推力的变化。研究结果表明 :喷管的有效矢量角与几何矢量角近似成正比 ;喷管偏转角较小时 ,喷管的流量系数及发动机的总推力几乎不随几何矢量角变化 ,喷管偏转角较大时 ,喷管的流量系数及发动机的总推力随着几何矢量角的增大而减小 ;发动机的轴向推力随着几何矢量角的增大而减小 。
A mathematical model of engine with axisymmetric vector nozzle was established The effects of vector nozzle deflection on engine thrust were studied using the model The results show that the effective thrust vector angles are approximately linear with the geometric thrust vector angles The discharge coefficient of nozzle and total thrust of engine almost keep constant when deflection angle of the vector nozzle is small and they decrease gradually with the increasement of geometric thrust vectoring angle when deflecting angle of the vector nozzle is big The axi thrust of engine decreases and the side thrust of engine increases with the increasement of geometric thrust vector angle
出处
《推进技术》
EI
CAS
CSCD
北大核心
2000年第3期23-25,共3页
Journal of Propulsion Technology
关键词
航空发动机
发动机喷管
可动喷管
推力向量控制
Aircraft engine
Engine nozzle
Movable nozzle
Thrust vector control
Mathematical model
