We report on an intriguing phenomenon taking place in a liquid rotating around a fixed horizontal axis. Under suitable conditions, bubbles and particles are observed to drift along the axis of rotation maintaining a constant distance from it and a constant angle of elevation above the horizontal. Absence of fore-aft symmetry of the bubble or particle shape is a prerequisite for this phenomenon. For bubbles, this requires a volume sufficiently large for surface-tension effects to be small and large deformations to be possible. Particle image velocimetry and flow visualization suggest that the wake does not play a role. The dependence on bubble radius, particle shape, liquid viscosity, and speed of rotation is investigated
Gas liquid bubbly flow reactors are used in chemical, petrochemical and bioprocess industries to en...
International audience–We report direct evidence of a secondary flow excited by the Earth rotation i...
How anisotropic particles rotate and orient in a flow depends on the hydrodynamic torque they experi...
We report on an intriguing phenomenon taking place in a liquid rotating around a fixed horizontal ax...
We report on an intriguing phenomenon taking place in a liquid rotating around a fixed horizontal ax...
To predict the behavior of bubbles and particles moving in fluids, the hydrodynamics forces acting o...
The present paper reports on experimental observations performed on 2–6 mm low-density polystyrene p...
The symmetry of Taylor bubbles moving in a vertical pipe is likely to break when the liquid flows do...
In Refs. [1,2] we described a new pattern formation process associated with the flow inside a horizo...
The velocity and shape of Taylor bubbles moving in a vertical channel in a Poiseuille liquid flow we...
The motion of small air bubbles in a horizontal solid-body rotating flow is investigated experimenta...
Abstract: Detailed experiments are conducted to study hydrodynamic effects of two simultaneously rel...
Both lighter- and hydrophobic heavier-than-liquid particles will float on liquid–air surfaces. Capil...
AbstractThe orientational dynamics of weakly inertial axisymmetric particles in a steady flow is inv...
This paper is an experimental investigation of turbulence modulation effects by Taylor-scale size pa...
Gas liquid bubbly flow reactors are used in chemical, petrochemical and bioprocess industries to en...
International audience–We report direct evidence of a secondary flow excited by the Earth rotation i...
How anisotropic particles rotate and orient in a flow depends on the hydrodynamic torque they experi...
We report on an intriguing phenomenon taking place in a liquid rotating around a fixed horizontal ax...
We report on an intriguing phenomenon taking place in a liquid rotating around a fixed horizontal ax...
To predict the behavior of bubbles and particles moving in fluids, the hydrodynamics forces acting o...
The present paper reports on experimental observations performed on 2–6 mm low-density polystyrene p...
The symmetry of Taylor bubbles moving in a vertical pipe is likely to break when the liquid flows do...
In Refs. [1,2] we described a new pattern formation process associated with the flow inside a horizo...
The velocity and shape of Taylor bubbles moving in a vertical channel in a Poiseuille liquid flow we...
The motion of small air bubbles in a horizontal solid-body rotating flow is investigated experimenta...
Abstract: Detailed experiments are conducted to study hydrodynamic effects of two simultaneously rel...
Both lighter- and hydrophobic heavier-than-liquid particles will float on liquid–air surfaces. Capil...
AbstractThe orientational dynamics of weakly inertial axisymmetric particles in a steady flow is inv...
This paper is an experimental investigation of turbulence modulation effects by Taylor-scale size pa...
Gas liquid bubbly flow reactors are used in chemical, petrochemical and bioprocess industries to en...
International audience–We report direct evidence of a secondary flow excited by the Earth rotation i...
How anisotropic particles rotate and orient in a flow depends on the hydrodynamic torque they experi...