Litcius/Paper detail

Objective momentum barriers in wall turbulence

Nikolas Aksamit, George Haller

2022Journal of Fluid Mechanics17 citationsDOIOpen Access PDF

Abstract

We use the recent frame-indifferent theory of diffusive momentum transport to identify internal barriers in wall-bounded turbulence. Formed by the invariant manifolds of the Laplacian of the velocity field, the barriers block the viscous part of the instantaneous momentum flux in the flow. We employ the level sets of single-trajectory Lagrangian diagnostic tools, the trajectory rotation average and trajectory stretching exponent, to approximate both vortical and internal wall-parallel momentum transport barrier (MTB) interfaces. These interfaces provide frame-indifferent alternatives to classic velocity-gradient-based vortices and high-shear boundaries between uniform momentum zones (UMZs). Indeed, we find that these elliptic manifold approximations and MTBs outperform standard vortices and UMZ interfaces in blocking diffusive momentum transport, which suggests our momentum barriers are physical features that may be the cause of coherence signatures in statistical and non-objective diagnostics. We also introduce normalized trajectory metrics that provide unprecedented visualizations of objective coherent structures by avoiding strong turbulence biases.

Topics & Concepts

TurbulenceMomentum (technical analysis)PhysicsClassical mechanicsVortexTrajectoryAngular momentumFlow (mathematics)MechanicsStatistical physicsQuantum mechanicsFinanceEconomicsFluid Dynamics and Turbulent FlowsPlant Water Relations and Carbon DynamicsWind and Air Flow Studies