Add to ORKGIt is commonly known that the intermittent transition from laminar to turbulent flow in pipes occurs because, at intermediate values of a prescribed pressure drop, a purely laminar flow offers too little resistance, but a fully turbulent one offers too much. We propose a phenomenological model of the flow, which is able to explain this in a quantitative way through a hysteretic transition between laminar and turbulent states, characterized by a disturbance amplitude variable that satisfies a natural type of evolution equation. The form of this equation is motivated by physical observations and derived by an averaging procedure, and we show that it naturally predicts disturbances having the characteristics of slugs and puffs. The model predi...
The transition to turbulence in pipe flow does not follow the scenario familiar from Rayleigh-Benar...
Fluid flows in nature and applications are frequently subject to periodic velocity modulations. Surp...
Transition to turbulence in pipe flow has puzzled scientists since the studies of Hagen, Poiseuille ...
It is commonly known that the intermittent transition from laminar to turbulent flow in pipes occurs...
In pipes, turbulence sets in despite the linear stability of the laminar Hagen–Poiseuille flow. The ...
The transition to turbulence in pipe flow proceeds through several distinct stages, eventually produc...
Since the seminal studies by Osborne Reynolds in the nineteenth century, pipe flow has served as a p...
Turbulent-laminar patterns are ubiquitous near transition in wall-bounded shear flows. Despite recen...
International audienceTransition to uniform turbulence in cylindrical pipe flow occurs experimentall...
The transition to turbulence in pipes is characterized by a coexistence of laminar and turbulent sta...
Laminar-to-turbulent transition of pipe flows occurs, for sufficiently high Reynolds numbers, in the...
Transition to uniform turbulence in cylindrical pipe flow occurs experimentally via the spatial expa...
When fluid flows through a channel, pipe, or duct, there are two basic forms of motion: smooth lamin...
The route to turbulence in pipe flow is a complex, nonlinear, spatiotemporal process for which an in...
Using various techniques from dynamical systems theory, we rigorously study an experimentally valida...
The transition to turbulence in pipe flow does not follow the scenario familiar from Rayleigh-Benar...
Fluid flows in nature and applications are frequently subject to periodic velocity modulations. Surp...
Transition to turbulence in pipe flow has puzzled scientists since the studies of Hagen, Poiseuille ...
It is commonly known that the intermittent transition from laminar to turbulent flow in pipes occurs...
In pipes, turbulence sets in despite the linear stability of the laminar Hagen–Poiseuille flow. The ...
The transition to turbulence in pipe flow proceeds through several distinct stages, eventually produc...
Since the seminal studies by Osborne Reynolds in the nineteenth century, pipe flow has served as a p...
Turbulent-laminar patterns are ubiquitous near transition in wall-bounded shear flows. Despite recen...
International audienceTransition to uniform turbulence in cylindrical pipe flow occurs experimentall...
The transition to turbulence in pipes is characterized by a coexistence of laminar and turbulent sta...
Laminar-to-turbulent transition of pipe flows occurs, for sufficiently high Reynolds numbers, in the...
Transition to uniform turbulence in cylindrical pipe flow occurs experimentally via the spatial expa...
When fluid flows through a channel, pipe, or duct, there are two basic forms of motion: smooth lamin...
The route to turbulence in pipe flow is a complex, nonlinear, spatiotemporal process for which an in...
Using various techniques from dynamical systems theory, we rigorously study an experimentally valida...
The transition to turbulence in pipe flow does not follow the scenario familiar from Rayleigh-Benar...
Fluid flows in nature and applications are frequently subject to periodic velocity modulations. Surp...
Transition to turbulence in pipe flow has puzzled scientists since the studies of Hagen, Poiseuille ...