We present a new model for bubbly cavitating flows. Based on volume-averaged equations, a subgrid model is added to account for a bubble, or multiple bubbles, within each computational cell. The model converges to the solution of ensemble-averaged bubbly flow equations for weak oscillations and monodisperse systems. In the other extreme, it also converges to the theoretical solution for a single oscillating bubble, and captures the bubble radius evolution and the pressure disturbance induced in the liquid. A substantial saving of computational time is achieved compared to ensemble-averaged models for polydisperse mixtures
We compare volume- and ensemble-averaged bubbly flow models. Volume-averaging is a deterministic pro...
In this paper, a new model based on bubble-bubble interactions is proposed for cavitation. Unlike th...
To model the spatial evolution of the geometrical structure of the gas bubbles in isothermal vertica...
We present a new model for bubbly cavitating flows. Based on volume-averaged equations, a subgrid mo...
A new model for bubbly, cavitating flow is validated and used to study the shock-induced oscillation...
This thesis concerns the dynamics of bubbly flows with a distribution of equilibrium bubble sizes. T...
The effect of distributed bubble size on shock propagation in homogeneous bubbly liquids is compute...
We investigate the shock dynamics of liquid flows containing small gas bubbles with numerical simula...
Bubble dynamics are associated with wide and important applications in cavitation erosion in many in...
The Rayleigh-Plesset equation is used extensively to model spherical bubble dynamics, yet is has bee...
This book describes and explains the fundamental physical processes involved in bubble dynamics and ...
The problem of predicting the moments of the distribution of bubble radius in bubbly flows is consid...
We compare the computational performance of two modeling approaches for the flow of dilute cavitatio...
This paper presents a numerical investigation of some of the phenomena involved in the nonlinear dyn...
Ce travail de thèse porte sur la modélisation de la cavitation, phénomène par lequel se forment des ...
We compare volume- and ensemble-averaged bubbly flow models. Volume-averaging is a deterministic pro...
In this paper, a new model based on bubble-bubble interactions is proposed for cavitation. Unlike th...
To model the spatial evolution of the geometrical structure of the gas bubbles in isothermal vertica...
We present a new model for bubbly cavitating flows. Based on volume-averaged equations, a subgrid mo...
A new model for bubbly, cavitating flow is validated and used to study the shock-induced oscillation...
This thesis concerns the dynamics of bubbly flows with a distribution of equilibrium bubble sizes. T...
The effect of distributed bubble size on shock propagation in homogeneous bubbly liquids is compute...
We investigate the shock dynamics of liquid flows containing small gas bubbles with numerical simula...
Bubble dynamics are associated with wide and important applications in cavitation erosion in many in...
The Rayleigh-Plesset equation is used extensively to model spherical bubble dynamics, yet is has bee...
This book describes and explains the fundamental physical processes involved in bubble dynamics and ...
The problem of predicting the moments of the distribution of bubble radius in bubbly flows is consid...
We compare the computational performance of two modeling approaches for the flow of dilute cavitatio...
This paper presents a numerical investigation of some of the phenomena involved in the nonlinear dyn...
Ce travail de thèse porte sur la modélisation de la cavitation, phénomène par lequel se forment des ...
We compare volume- and ensemble-averaged bubbly flow models. Volume-averaging is a deterministic pro...
In this paper, a new model based on bubble-bubble interactions is proposed for cavitation. Unlike th...
To model the spatial evolution of the geometrical structure of the gas bubbles in isothermal vertica...