In 1997, DLR and ONERA joined in a common project called JAPHAR (joint Airbreathing Propulsion for Hypersonic Application Research). The main objective of this project is to develop and test at ground a dual mode ramjet engine (DMR) combining both subsonic and supersonic combustion regimes. The other objective is to define a methodology to establish the thrust-minus-drag balance of the DMR on an experimental vehicle to be flown between Mach number 4 and 8. This paper presents an ongoing effort for the design of an integrated propulsive system for JAPHAR flight test vehicle. Forebody, inlet and nozzle aerodynamic studies are conducted in close connection with the system studies and require CFD analysis as well as wind tunnel experiments. A forebody parametric study based on turbulent Navier-Stokes calculations was conducted at ONERA. The main results are given in the paper, demonstrating the advantage of DLR waverider forebody. In addition, this paper gives an overview of the inlet studies conducted so far at ONERA. An internal compression inlet was designed and tested in S3MA wind tunnel, between Mach 3 and 5.5. Navier-Stokes calculations are in progress to calibrate numerical codes and to provide combustion people with realistic entry flow field conditions. Lastly, a preliminary design of a SERN nozzle (Single Expansion Ramp Nozzle) relying on inviscid calculations is presented.
Aerodynamic Performance Analysis of the Hypersonic Airbreathing Vehicle JAPHAR
1999
11 pages
Report
No indication
English
Aircraft , Aerodynamics , Jet & Gas Turbine Engines , Air breathing engines , Aerodynamic characteristics , Hypersonic vehicles , Test and evaluation , Compression , Ground level , Flight testing , Integrated systems , Computations , Performance tests , Turbulence , Coding , Propulsion systems , Ramjet engines , Internal , Test vehicles , Wind tunnel tests , Nozzles , Systems analysis , Expansion , Vehicles , Supersonic combustion , Numerical methods and procedures , Hypersonic characteristics , Drag , Navier stokes equations , Inviscid flow , Dual mode , Thrust , Inlets , Subsonic combustion , Foreign reports , Japhar(Joint airbreathing propulsion hypersonic application research)
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