Extension of the law of the wall exploiting the concepts of strong and weak universality of velocity fluctuations in a channel

This work explores the universality of the instantaneous velocity profiles in a channel. In the analysis, we employ a one-dimensional scalar variant of the proper orthogonal decomposition (POD) and exploit the concepts of strong and weak universalities. Strong universality requires that all POD modes are universal with respect to the Reynolds number, while weak universality only requires that the first few POD modes are universal. As POD analysis concerns information at more than one location, these universalities are more general than various similarities and universality concerning single-point flow statistics, e.g., outer layer similarity or universality of the log law. We examine flows at Re_τ = 180, 540, 1000, and 5200. Strong universality is observed in the outer layer, and weak universality is found in both the inner layer and the outer part of the logarithmic layer. The presence of weak universality suggests the existence of an extension to the law of the wall (LoW). Here, we propose such an extension based on the results from one-dimensional POD analysis. The usefulness of the LoW extension is assessed by comparing flow reconstructions according to the extended LoW and the equilibrium LoW. We show that the extended LoW provides strikingly accurate flow reconstruction in the wall layer across a wide range of Reynolds numbers, capturing fine-scale motions that are entirely missed by the equilibrium LoW.