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一种低压无导叶对转涡轮特性分析与设计
方祥军, 刘思永, 王屏, 张维军
北京航空航天大学能源与动力工程学院 北京100083
摘要:
为获得高载荷无低压级导叶对转涡轮气动设计规律,以一个流量5·25kg/s,膨胀比5·69,高低压涡轮转速均为2·5×104r/min的高效超跨声对转涡轮作设计实例,从基元级分析、通流设计和全三维数值模拟三个部分研究了对转涡轮在取消低压级导叶后出现的诸多新特征给气动设计带来的困难及相应采取措施。设计与分析结果表明,在相同气动设计参数条件下对转涡轮比传统涡轮效率高1·77%。对转涡轮设计关键问题是在合理选择主流参数后,解决高压涡轮动叶既作功又整流双重功能。
关键词:  涡轮冲压发动机  涡轮导向叶片  气动特性  对转涡轮+  数值仿真
DOI:
分类号:V232
基金项目:
Design and analysis of LP-vaneless contra-rotating turbine
FANG Xiang-jun, LIU Si-yong, WANG Ping, ZHANG Wei-jun
Coll. of Energy and Power Engineering, Beijing Univ. of Aeronautics and Astronautics,Beijing 100083,China
Abstract:
It was mainly to analyze the advantages and new dynamic characteristics of a new contra-rotating turbine(CRT) without vanes of low pressure turbine, and to discuss the cause of leading to the new characteristics which make it more difficult to design high efficiency CRT, then to present the main ways to solve the problems, continuously to design a compact supersonic highly loaded and efficiency Vaneless CRT. The main measures to design CRT were expounded from velocity triangles analysis, throughflow design and 3D numerical simulation. The results indicated that CRT has higher overall efficiency than the conventional turbine for the low pressure turbine with excellent dynamic conditions.
Key words:  Turboramjet engine  Turborotor  Aerodynamic characteristic  Contra-rotating turbine~+  Numerical simulation