Characterization of supercritical reactive flow for hypersonic real-time application
Résumé
In the framework of the hypersonic propulsion, with cooled engine by endothermic hydrocarbon fuel, it is necessary to provide adapted measurement methods for the cooling regulation as for the control of the engine thrust. The sensors should be robust because of the extreme in-flight conditions, of vehicle acceleration and vibration, of the fluid temperature (1500 K) and pressure (3.5 MPa) and of the multi-component supercritical mixture. Their response time should be lower than one second. Therefore, a large range of real time and on line measurement methods has been tested and some of these methods among the most promising are presented in this paper. The aim is not to necessarily develop a new technology but to evaluate the feasibility and the adaptability of existing ones for our purpose, even if those are not especially dedicated for it. Numerical evaluation is firstly conducted then some of the techniques are experimentally tested. Two of them, the sonic throat and the Fourier Transform Infra Red spectroscopy (FTIR), appear to be particularly promising and allow uncertainties of few percents. The first one allows evaluating the mass flow rate of a supercritical reactive mixture. The second one characterizes the chemical composition before injection in the combustion chamber, for mole fraction greater than 5 %. Copyright © 2009 by the American Institute of Aeronautics and Astronautics, Inc.
Mots clés
Chemical compositions
Endothermic hydrocarbon fuels
Engine thrust
Flight conditions
Fluid temperatures
Hypersonic propulsion
Mass flow rate
Measurement methods
Mole fraction
Multicomponents
New technologies
Numerical evaluations
On-line measurement
Reactive flow
Reactive mixtures
Real time
Real-time application
Response time
Super-critical
Supercritical mixtures
Vehicle acceleration
Combustion chambers
Fourier transforms
Hydrocarbons
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