雷诺平均Navier-Stokes方程
跨音速
机械
可压缩流
压缩性
休克(循环)
超音速
湍流
物理
边界层
计算机科学
航空航天工程
应用数学
经典力学
数学
工程类
空气动力学
医学
内科学
作者
Clark Pederson,Todd Oliver,Robert Moser
摘要
Hybrid RANS/LES models have consistently shown superior accuracy over RANS in predictions of massively separated flows. However, these models have experienced difficulties with modeled stress depletion, smooth-wall separated flow, and shock-separated flows. The Active Model Split (AMS) hybridization was created to address some of the fundamental shortcomings of traditional hybrid RANS/LES models. While previous work considered incompressible flows, this paper demonstrates how the AMS framework can be extended to address compressible flows. AMS-based hybrid models for the turbulent heat flux and turbulent transport terms in the total energy equation are presented. This compressible hybrid RANS/LES framework is demonstrated on a subsonic channel, a supersonic channel, and a transonic shock-boundary layer interaction.
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