Litcius/Paper detail

New power-law scaling for friction factor of extreme Reynolds number pipe flows

H. R. Anbarlooei, D. O. A. Cruz, Fábio Ramos

2020Physics of Fluids22 citationsDOI

Abstract

We report a novel power-law scaling for the friction factor of incompressible Newtonian fluid flows at extreme Reynolds numbers: f = Ce/Re2/13. The formula is based on a new phenomenology for coherent structures that dominate the momentum exchange in meso-layer regions and scales with the geometric mean δδν, where δν is the viscous length scale and δ is the pipe radius. Comparisons with the experimental data from the Princeton Superpipe and the Hi-Reff Facility at the National Metrology Institute of Japan show excellent agreement for a large range of Reynolds numbers. This work, along with the recent empirical evidence, suggests a possible change in the mechanism of turbulent momentum transfer for pipe flows in extreme Reynolds numbers.

Topics & Concepts

Reynolds numberPhysicsTurbulenceMechanicsPower lawMomentum transferReynolds stress equation modelPipe flowClassical mechanicsScalingNewtonian fluidStatistical physicsGeometryK-epsilon turbulence modelMathematicsOpticsStatisticsK-omega turbulence modelScatteringFluid Dynamics and Turbulent FlowsPlant Water Relations and Carbon DynamicsHeat Transfer Mechanisms