Thomas Schmitt scite author profile

The present study uses the LES code AVBP, developed at CERFACS, to simulate transcritical flows. Real gas effects are accounted for by the use of a cubic equation of state, in conjunction with appropriate viscosity and thermal conductivity coefficients. First a single nitrogen round jet at supercritical pressure injected in a gaseous reservoir is simulated. Two cases are considered, one demonstrating a transcritical injection (high density injection), the other being directly injected at supercritical temperature (lower density injection). Comparison with available measurements shows good agreement. Finally, the simulation of a reacting case from the Mascotte bench (ONERA) is performed, consisting in a single coaxial injector injecting transcritical oxygen and supercritical hydrogen in a 60 bar chamber. Mean flow characteristics are in good agreement with the experimental observations of OH * emission, whereas temperature comparisons are more difficult to interpret. To cite this article: T.

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Large-Eddy Simulation of oxygen/methane flames under transcritical conditions

Schmitt

Méry

Boileau

et al. 2011

Proceedings of the Combustion Institute

103

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Thomas Schmitt

Large-Eddy Simulation of Supercritical-Pressure Round Jets

Large-Eddy Simulation of transcritical flows

Large-Eddy Simulation of oxygen/methane flames under transcritical conditions

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