In recent years CFD has proven to be a valuable and powerful tool to advance our understanding of complex multiphase flow systems arising in industrial applications. However, the predictive capabilities of this tool are determined by many factors of physical and numerical origin but in particular by the quality of the closures adopted for the description of the interface forces. The objective of this study is to improve the front tracking method in order to compute such forces with sufficient accuracy. This paper describes the further development of a 3D front tracking model to achieve improved volume conservation and circumvent problems related to the representation of surface tension. First, we have included a method to handle the pressur...
A chemical species transport model is developed and coupled to an improved Front-Tracking model, ena...
Closures for the drag, virtual mass and lift forces acting on a single air bubble or toluene droplet...
Closures for the drag, virtual mass and lift forces acting on a single air bubble or toluene droplet...
In recent years CFD has proven to be a valuable and powerful tool to advance our understanding of co...
In recent years CFD has proven to be a valuable and powerful tool to advance our understanding of co...
In this paper a three-dimensional (3-D) front-tracking (FT) model is presented featuring a new metho...
In recent years CFD has proven to be a valuable and powerful tool for advancing our understanding of...
In recent years CFD has proven to be a valuable and powerful tool for advancing our understanding of...
In the wide and complex field of multiphase flows, bubbly flows with non-Newtonian liquids are encou...
Using a 3D Front Tracking (FT) model, closures for the drag, lift and virtual mass forces have been ...
In the wide and complex field of multiphase flows, bubbly flows with non-Newtonian liquids are encou...
The rise of bubbles in viscous liquids is not only a very common process in many industrial applicat...
CFD modeling of dispersed multiphase flows can be quite challenging because of the wide range of tim...
A chemical species transport model is developed and coupled to an improved Front-Tracking model, ena...
Closures for the drag, virtual mass and lift forces acting on a single air bubble or toluene droplet...
Closures for the drag, virtual mass and lift forces acting on a single air bubble or toluene droplet...
In recent years CFD has proven to be a valuable and powerful tool to advance our understanding of co...
In recent years CFD has proven to be a valuable and powerful tool to advance our understanding of co...
In this paper a three-dimensional (3-D) front-tracking (FT) model is presented featuring a new metho...
In recent years CFD has proven to be a valuable and powerful tool for advancing our understanding of...
In recent years CFD has proven to be a valuable and powerful tool for advancing our understanding of...
In the wide and complex field of multiphase flows, bubbly flows with non-Newtonian liquids are encou...
Using a 3D Front Tracking (FT) model, closures for the drag, lift and virtual mass forces have been ...
In the wide and complex field of multiphase flows, bubbly flows with non-Newtonian liquids are encou...
The rise of bubbles in viscous liquids is not only a very common process in many industrial applicat...
CFD modeling of dispersed multiphase flows can be quite challenging because of the wide range of tim...
A chemical species transport model is developed and coupled to an improved Front-Tracking model, ena...
Closures for the drag, virtual mass and lift forces acting on a single air bubble or toluene droplet...
Closures for the drag, virtual mass and lift forces acting on a single air bubble or toluene droplet...