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Measurements of Reflected Shock Tunnel Freestream Nitric Oxide Temperatures and Partial Pressure

Julian J. Girard, Peter M. Finch, Christopher L. Strand, Ronald K. Hanson, Wesley M. Yu, Joanna M. Austin, H. G. Hornung

2021AIAA Journal46 citationsDOI

Abstract

This paper reports on measurements of freestream nitric oxide (NO) rotational and vibrational temperatures and partial pressures, collected in the Caltech T5 reflected shock tunnel. Quantum cascade lasers, emitting mid-infrared light resonant with fundamental rovibrational NO transitions, were directed through the supersonic (Mach ∼5) freestream flow. Tunable diode laser absorption spectroscopy (TDLAS) was used to measure the path-averaged rotational and vibrational temperatures of NO in the flow, in addition to the NO partial pressure. The temperature measurements demonstrate strong evidence of NO rotational and vibrational equilibrium during the 1 ms test period. Agreement between vibrational and rotational temperatures was observed in all experiments, including one h₀,∞≈8 MJ/kg and four h₀,∞≍18 MJ/kg experiments, during and after the nominal test time. Absorption from CO and H₂O was also observed in the TDLAS measurements, though their concentrations cannot be accurately estimated. The goal of these and future experiments is to develop and demonstrate TDLAS experimental strategies for high-enthalpy impulse facilities and to help to inform improvements of existing models and solvers used for prediction of freestream conditions.

Topics & Concepts

FreestreamRotational–vibrational spectroscopyExpansion tunnelMach numberMaterials scienceHypersonic speedTunable diode laser absorption spectroscopyWind tunnelStagnation pressureLaserOpticsAtomic physicsMechanicsPhysicsTunable laserExcited stateReynolds numberTurbulenceSpectroscopy and Laser ApplicationsLaser Design and ApplicationsGas Dynamics and Kinetic Theory
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