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涡轮基连续爆震组合发动机设计点性能研究

ZHAO Qi GONG Jianbo ZHANG Kun LI Dan MEI Deqing

实验流体力学2025，Vol.39Issue(6)：62-73,12.

实验流体力学2025，Vol.39Issue(6)：62-73,12.DOI:10.11729/syltlx20230049

涡轮基连续爆震组合发动机设计点性能研究

Research on design point performance of turbine based continuous detonation combined engine

ZHAO Qi ¹GONG Jianbo ²ZHANG Kun ²LI Dan ²MEI Deqing³

作者信息

1. School of Automotive and Traffic Engineering,Jiangsu University,Zhenjiang 212013,China||Institute of Engineering Thermophysics,Chinese Academy of Sciences,Beijing 100190,China
2. Institute of Engineering Thermophysics,Chinese Academy of Sciences,Beijing 100190,China
3. School of Automotive and Traffic Engineering,Jiangsu University,Zhenjiang 212013,China
折叠

摘要

Abstract

A parallel configuration of a separate exhaust turbine based continuous detonation combined engine is proposed,in which a high temperature and high pressure air mass is induced from the exit of the turbine-based high pressure compressor to supply the detonation combustor for pressurized combustion to increase the overall engine thrust.The overall performance analysis model was established for the combined engine,and the optimization of the cycle parameters at two different design points(H=0 and Ma=0 at the takeoff point in standard atmospheric conditions at sea level,H=11 km and Ma=1.4 at the usual flight point at high altitude)was focused on according to the established model.The results show that the combined engine thrust increases with the increase of the detonation combustor exit temperature,while the fuel economy decreases significantly,each 100 K increase in the detonation combustor exit temperature,the thrust increase of about 1.96%under the ground design point,specific fuel consumption increased by about 2.9%,the thrust increase of about 2.56%under the high altitude design point,specific fuel consumption increased by about 2.26%;The larger the pressurization ratio of the detonation combustor pressurized combustion,the better the thrust performance and fuel economy of the combined engine,for every 10%increase in the detonation combustor pressurization ratio,the increase in thrust at ground design point is about 1.03%and the decrease in specific fuel consumption is about 1.02%,and the increase in thrust at high altitude design point is about 0.8%and the decrease in specific fuel consumption is about 0.81%;The increase in the ratio of the gas induced from the turbine base to the detonation combustor(defined as the split fraction in the text)can improve the engine thrust performance,but the specific fuel consumption will also increase,the existence of the engine thrust performance to achieve optimal design split fraction,the optimal design split fraction of 0.3 at ground design point,the optimal design split fraction of 0.5 at high altitude design point.

关键词

涡轮基连续爆震组合发动机/循环参数/总体性能/设计点

Key words

turbine based continuous detonation engine/cycle parameter/overall performance/design point

分类

航空航天

引用本文复制引用

ZHAO Qi,GONG Jianbo,ZHANG Kun,LI Dan,MEI Deqing..涡轮基连续爆震组合发动机设计点性能研究[J].实验流体力学,2025,39(6):62-73,12.

基金项目

国家科技重大专项(J2019-II-0007-0027) （J2019-II-0007-0027）

实验流体力学

OA北大核心

ISSN：1672-9897

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