In recent years CFD has proven to be a valuable and powerful tool for advancing 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 use direct numerical simulations to validate and improve these closures using an improved front tracking model. We have studied the drag force on single air bubbles rising in viscous liquids over a wide range of viscosities. Dedicated experiments were conducted to validate the model and to highlight the effect of contaminants. Th...
In this paper a three-dimensional (3-D) front-tracking (FT) model is presented featuring a new metho...
CFD modeling of dispersed multiphase flows can be quite challenging because of the wide range of tim...
An accurate and fast simulation of large-scale gas/liquid contact apparatusses, such as bubble colum...
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 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...
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...
In the wide and complex field of multiphase flows, bubbly flows with non-Newtonian liquids are encou...
Dispersed gas-liquid flows are often encountered in the chemical process industry. Large scale model...
Dispersed gas-liquid flows are often encountered in the chemical process industry. Large scale model...
In this paper a three-dimensional (3-D) front-tracking (FT) model is presented featuring a new metho...
CFD modeling of dispersed multiphase flows can be quite challenging because of the wide range of tim...
An accurate and fast simulation of large-scale gas/liquid contact apparatusses, such as bubble colum...
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 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...
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...
In the wide and complex field of multiphase flows, bubbly flows with non-Newtonian liquids are encou...
Dispersed gas-liquid flows are often encountered in the chemical process industry. Large scale model...
Dispersed gas-liquid flows are often encountered in the chemical process industry. Large scale model...
In this paper a three-dimensional (3-D) front-tracking (FT) model is presented featuring a new metho...
CFD modeling of dispersed multiphase flows can be quite challenging because of the wide range of tim...
An accurate and fast simulation of large-scale gas/liquid contact apparatusses, such as bubble colum...