Central mean temperature scaling in compressible turbulent channel flows with symmetric isothermal boundaries
Yubin Song, Peng Zhang, Yilang Liu, Zhenhua Xia
Abstract
Originating from the generalized Reynolds analogy theory, an empirical scaling for the central mean temperature in compressible turbulent channel flow with symmetric isothermal boundaries is proposed. The empirical scaling is quite accurate and most of the relative errors are below 1.5% as assessed by available direct numerical simulation data at various Reynolds and Mach numbers. The mean temperature profile can be quantitatively obtained through the mean velocity with empirical scaling.
Topics & Concepts
ScalingMach numberReynolds numberCompressibilityMechanicsTurbulenceIsothermal processPhysicsCompressible flowReynolds stressIsothermal flowMathematicsStatistical physicsThermodynamicsOpen-channel flowGeometryFluid Dynamics and Turbulent FlowsCombustion and flame dynamicsParticle Dynamics in Fluid Flows