Physics – Fluid Dynamics
Scientific paper
2010-01-14
Physics
Fluid Dynamics
Scientific paper
The volatile transition from quiescent laminar to strongly fluctuating turbulent dynamics in shear flows remains only poorly understood despite its practical importance and more than a century of intense research. The theoretical understanding of the transition process has been complicated by the lack of a linear instability mechanism and additionally by a catastrophic collapse of turbulence which can occur after extremely long lifetimes. Turbulence close to onset is investigated experimentally in three different geometries: pipe, duct and channel flow. The reverse transition from turbulent to laminar flow is observed to be a general feature of shear flows. A critical point is uncovered at slightly higher flow rates, where the nature of the flow changes abruptly to the generic case of expanding turbulence. The critical exponent associated with this phase transition is found to be universal. This confirms a conjecture made over 20 years ago based on an analogy between fluid turbulence and discrete models in statistical physics.
Hof Bjoern
Lozar Alberto de
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