Abstract A rocket-based combined cycle (RBCC) engine was designed to demonstrate its broad applicability in the ejector and ramjet modes within the flight range from Mach 0 to Mach 4.5. To validate the design, a prototype was fabricated and tested as a freejet engine operating at flight Mach 3 using hydrocarbon fuel. The proposed design was a single module, heat sink steel alloy model with an interior fuel supply and active control system and a fully integrated flowpath that was comprehensively instrumented with pressure sensors. The mass capture and back pressure resistance of the inlet were numerically investigated and experimentally calibrated. The combustion process and rocket operation during mode transition were investigated by direct-connect tests. Finally, the comprehensive component compatibility and multimodal operational capability of the RBCC engine prototype was validated through freejet tests. This paper describes the design of the RBCC engine prototype, reviews the testing procedures, and discusses the experimental results of these efforts in detail.

    Highlights A fully integrated RBCC engine prototype was designed for freejet tests at Mach 3. Comprehensive component compatibility was well validated through freejet tests. Effective mode transition was fulfilled by direct-connect test and freejet test. A progressive rocket control method has been proposed for mode transition.


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    Title :

    A rocket-based combined-cycle engine prototype demonstrating comprehensive component compatibility and effective mode transition


    Contributors:
    Shi, Lei (author) / He, Guoqiang (author) / Liu, Peijin (author) / Qin, Fei (author) / Wei, Xianggeng (author) / Liu, Jie (author) / Wu, Lele (author)

    Published in:

    Acta Astronautica ; 128 ; 350-362


    Publication date :

    2016-07-07


    Size :

    13 pages




    Type of media :

    Article (Journal)


    Type of material :

    Electronic Resource


    Language :

    English