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Nonlinear hydrodynamic instability and turbulence in pulsatile flow

Duo Xu, Atul Varshney, Xingyu Ma, Baofang Song, Michael Riedl, Marc Avila, Björn Hof

2020Proceedings of the National Academy of Sciences49 citationsDOIOpen Access PDF

Abstract

Pulsating flows through tubular geometries are laminar provided that velocities are moderate. This in particular is also believed to apply to cardiovascular flows where inertial forces are typically too low to sustain turbulence. On the other hand, flow instabilities and fluctuating shear stresses are held responsible for a variety of cardiovascular diseases. Here we report a nonlinear instability mechanism for pulsating pipe flow that gives rise to bursts of turbulence at low flow rates. Geometrical distortions of small, yet finite, amplitude are found to excite a state consisting of helical vortices during flow deceleration. The resulting flow pattern grows rapidly in magnitude, breaks down into turbulence, and eventually returns to laminar when the flow accelerates. This scenario causes shear stress fluctuations and flow reversal during each pulsation cycle. Such unsteady conditions can adversely affect blood vessels and have been shown to promote inflammation and dysfunction of the shear stress-sensitive endothelial cell layer.

Topics & Concepts

Laminar flowTurbulenceMechanicsPulsatile flowInstabilityShear stressPhysicsFlow (mathematics)VortexShear flowOpen-channel flowPipe flowClassical mechanicsMedicineInternal medicineFluid Dynamics and Turbulent FlowsCardiovascular Health and Disease PreventionFluid Dynamics and Vibration Analysis
Nonlinear hydrodynamic instability and turbulence in pulsatile flow | Litcius