In this paper we present a framework for the simulation of dispersed bubbly two-phase flows, with the specific aim of describing vapor–liquid systems with condensation. We formulate and implement a framework that consists of a population balance equation (PBE) for the bubble size distribution and an Eulerian–Eulerian two-fluid solver. The PBE is discretized using the Direct Quadrature Method of Moments (DQMOM) in which we include the condensation of the bubbles as an internal phase space convection. We investigate the robustness of the DQMOM formulation and the numerical issues arising from the rapid shrinkage of the vapor bubbles. In contrast to a PBE method based on the multiple-size-group (MUSIG) method, the DQMOM formulation allows us t...
Gas-liquid bubbly flows with wide range of bubble sizes are commonly encountered in many industrial ...
Abstract In this work the status of computational modeling of bubbly flows is reviewed. The theory o...
In this work we present a numerical model to predict the bubble size distribution in turbulent bubbl...
n this paper a two-fluid framework for simulating two-phase bubbly flow in heated vertical channels ...
Two-fluid modeling approach is considered as one of the most practical and accurate macroscopic form...
Currently, the two-fluid model is one of the most practical and accurate macroscopic formulations fo...
In order to optimize and design new bubbly flow reactors, it is necessary to predict the bubble beha...
In this paper, modelling gas-liquid bubbly flows is achieved by the introduction of a population bal...
In this work the status of computational modeling of bubbly flows is reviewed. The theory of four di...
International audienceThis paper concerns the model of a polydispersed bubble population in the fram...
The objective of this work was to improve the modelling of boiling bubbly flows.We focused on the mo...
Population balance equations combined with a three-dimensional two-fluid model are employed to predi...
Fluid-fluid multiphase systems are complicated by the fact that the disperse phase is constituted by...
Abstract The spatial gas distribution of poly-disperse bubbly flows depends greatly on the bubble si...
A three-dimensional (3-D) two-fluid model coupled with the population balance equation is used to pr...
Gas-liquid bubbly flows with wide range of bubble sizes are commonly encountered in many industrial ...
Abstract In this work the status of computational modeling of bubbly flows is reviewed. The theory o...
In this work we present a numerical model to predict the bubble size distribution in turbulent bubbl...
n this paper a two-fluid framework for simulating two-phase bubbly flow in heated vertical channels ...
Two-fluid modeling approach is considered as one of the most practical and accurate macroscopic form...
Currently, the two-fluid model is one of the most practical and accurate macroscopic formulations fo...
In order to optimize and design new bubbly flow reactors, it is necessary to predict the bubble beha...
In this paper, modelling gas-liquid bubbly flows is achieved by the introduction of a population bal...
In this work the status of computational modeling of bubbly flows is reviewed. The theory of four di...
International audienceThis paper concerns the model of a polydispersed bubble population in the fram...
The objective of this work was to improve the modelling of boiling bubbly flows.We focused on the mo...
Population balance equations combined with a three-dimensional two-fluid model are employed to predi...
Fluid-fluid multiphase systems are complicated by the fact that the disperse phase is constituted by...
Abstract The spatial gas distribution of poly-disperse bubbly flows depends greatly on the bubble si...
A three-dimensional (3-D) two-fluid model coupled with the population balance equation is used to pr...
Gas-liquid bubbly flows with wide range of bubble sizes are commonly encountered in many industrial ...
Abstract In this work the status of computational modeling of bubbly flows is reviewed. The theory o...
In this work we present a numerical model to predict the bubble size distribution in turbulent bubbl...