In this note, we introduce a microscopic model for the motion of gas bubbles in a viscous fluid. By interpreting a bubble as a compressible fluid with infinite shear viscosity, we derive a pde/ode system coupling the density/velocity/pressure in the surrounding fluid with the linear/angular velocities and radii of the bubbles. We provide a 1D analogue of the system and construct an existence theory for this simplified system in a natural regularity framework. The second part of the paper is a preparatory work for the derivation of an averaged or macroscopic model
NOTE: Text or symbols not renderable in plain ASCII are indicated by [...]. Abstract is included in ...
Averaged properties of bubbly liquids in the limit of large Reynolds and small Weber numbers are det...
Bubbly liquid downflow through fixed beds and its transition to dispersed-bubble flow is modeled. At...
In this note, we introduce a microscopic model for the motion of gas bubbles in a viscous fluid. By ...
In this note, we introduce a microscopic model for the motion of gas bubbles in a viscous fluid. By ...
This paper is the second of the series of two papers, which focuses on the derivation of an averaged...
This paper is the second of the series of two papers, which focuses on the derivation of an averaged...
In this work a mathematical model for mono dimensional, two-phase, bubbly flow, is presented. The m...
We present a new model for bubbly cavitating flows. Based on volume-averaged equations, a subgrid mo...
The dynamics of bubbles at high Reynolds numbers is studied from the viewpoint of statistical mechan...
We study liquid flows with many small spherical gas bubbles. Heat transfer, surface tension and gas ...
One-dimensional linear dispersive waves in water flows containing a number of small spherical air bu...
International audienceBuoyancy driven bubbly (or particulate) flows are commonly exploited in indust...
The problem of predicting the moments of the distribution of bubble radius in bubbly flows is consid...
In this paper, modelling gas-liquid bubbly flows is achieved by the introduction of a population bal...
NOTE: Text or symbols not renderable in plain ASCII are indicated by [...]. Abstract is included in ...
Averaged properties of bubbly liquids in the limit of large Reynolds and small Weber numbers are det...
Bubbly liquid downflow through fixed beds and its transition to dispersed-bubble flow is modeled. At...
In this note, we introduce a microscopic model for the motion of gas bubbles in a viscous fluid. By ...
In this note, we introduce a microscopic model for the motion of gas bubbles in a viscous fluid. By ...
This paper is the second of the series of two papers, which focuses on the derivation of an averaged...
This paper is the second of the series of two papers, which focuses on the derivation of an averaged...
In this work a mathematical model for mono dimensional, two-phase, bubbly flow, is presented. The m...
We present a new model for bubbly cavitating flows. Based on volume-averaged equations, a subgrid mo...
The dynamics of bubbles at high Reynolds numbers is studied from the viewpoint of statistical mechan...
We study liquid flows with many small spherical gas bubbles. Heat transfer, surface tension and gas ...
One-dimensional linear dispersive waves in water flows containing a number of small spherical air bu...
International audienceBuoyancy driven bubbly (or particulate) flows are commonly exploited in indust...
The problem of predicting the moments of the distribution of bubble radius in bubbly flows is consid...
In this paper, modelling gas-liquid bubbly flows is achieved by the introduction of a population bal...
NOTE: Text or symbols not renderable in plain ASCII are indicated by [...]. Abstract is included in ...
Averaged properties of bubbly liquids in the limit of large Reynolds and small Weber numbers are det...
Bubbly liquid downflow through fixed beds and its transition to dispersed-bubble flow is modeled. At...