@article{keistler_hassan_2010, title={Simulation of Supersonic Combustion Involving H-2/Air and C2H4/Air}, volume={48}, ISSN={["1533-385X"]}, DOI={10.2514/1.43213}, abstractNote={A turbulence model that calculates the turbulent Prandtl and Schmidt numbers as part of the solution is presented. This model also accounts for compressibility effects, and addresses turbulence/chemistry interaction. Its predictions are compared with two experiments: an axisymmetric case involving mixing, hydrogen combustion, and ethylene combustion; and a three-dimensional ethylene mixing experiment. Fair to good agreement is indicated in the cases where data is available. Chemical mechanisms are found to have an influence on autoignition for hydrogen combustion cases, and on ignition location and flame size for hydrogen/ethylene combustion cases using reduced mechanisms.}, number={1}, journal={AIAA JOURNAL}, author={Keistler, P. G. and Hassan, H. A.}, year={2010}, month={Jan}, pages={166–173} }