Soliton-like coherent structures: a key to opening the door to turbulence
Shiyi Chen, Xiaogang Deng, Cunbiao Lee
Abstract
This review summarizes recent advances in the origin of turbulence. The soliton-like coherent structure (SCS) has been identified not only as a common structure in natural and K-type transitions, but also as a fundamental structure in N-type, O-type and bypass-type transitions, which dominate turbulence generation. It has also been confirmed as an essential structure in turbulent boundary layers. Notably, the SCS has been successively observed in pipe flows, stratified flows, mixing layers, jet flows, falling films and wakes. These findings collectively indicate that the SCS serves as a fundamental structure in shear flows, providing significant insights into the origin of shear turbulence.
Topics & Concepts
TurbulenceLagrangian coherent structuresShear (geology)Jet (fluid)PhysicsMixing (physics)Key (lock)MechanicsBoundary (topology)Aerospace engineeringFalling (accident)Structure functionStatistical physicsClassical mechanicsNetwork structureTurbulence kinetic energyMeteorologyFluid Dynamics and Turbulent FlowsNonlinear Dynamics and Pattern FormationCombustion and flame dynamics