Investigation of Very Large Eddy Simulation Method for Applications of Supersonic Turbulent Combustion

Abstract: The very large eddy simulation (VLES) method was investigated for supersonic reacting flows in the present work. The advantages and characteristics of the VLES model and the widely used improved delayed detached eddy simulation (IDDES) method were revealed through a supersonic ramped-cavity cold flow. Compared to the IDDES model, the VLES model transformed from RANS mode to LES mode faster, resulting in a smaller gray region caused by the mode transition. However, the original volume-averaging truncation lengt… Show more

“…However, the URANS predictions show large deviations from the experiment. Hybrid RANS/LES computations (see Fan et al [9], Luo et al [10], and Yan et al [11]) have also been conducted, and overall, the results agree well with the experiment. Though consuming considerable computational resources, the capture of three-dimensional transient vortices does improve the URANS results.…”

Numerical Simulation of Supersonic Turbulent Separated Flows Based on k–ω Turbulence Models with Different Compressibility Corrections

“…However, the URANS predictions show large deviations from the experiment. Hybrid RANS/LES computations (see Fan et al [9], Luo et al [10], and Yan et al [11]) have also been conducted, and overall, the results agree well with the experiment. Though consuming considerable computational resources, the capture of three-dimensional transient vortices does improve the URANS results.…”

Numerical Simulation of Supersonic Turbulent Separated Flows Based on k–ω Turbulence Models with Different Compressibility Corrections