摘要
为提高比冲,闭环系统的液体火箭发动机的涡轮泵多采用反力度不大的反力式涡轮,这种火箭反力式涡轮不同于航空涡轮,其以极低的压比、极高的负荷和低展弦比为特征,在给定的叶栅大气流转折角、低展弦比、低反力度和相对大的径向间隙条件下,采用了沿叶高正攻角设计和沿叶高变功率损失设计,用以加大叶栅通道的几何收敛性,减少二次流和叶顶间隙损失,从而获得相对高的涡轮效率.
In order to gain higher specific impulse, the rocket turbines for the closed cycle are reaction turbines with a lower reaction in the rotating vanes. This rocket reaction turbine is characterized by lowest pressure ratio,highest load and low aspect ratio. Under the design conditions of large medium flow deflective angle in the turbine cascade, low aspect ratio and large relative rotor tip clearance, the positive attack angle design along the height of the vanes,varying load and varying loss design along the height of the vanes are adopted in order to minimize the secondary loss,the tip clearance loss and gain the high efficiency for the rocket reaction turbine.
出处
《北京航空航天大学学报》
EI
CAS
CSCD
北大核心
1999年第6期696-699,共4页
Journal of Beijing University of Aeronautics and Astronautics
关键词
液体火箭发动机
反击式
透平膨胀机
liquid rocket engines
turbine pumps
reaction expansion turbines
