Add to ORKGLarge eddy simulation coupled to Lagrangian bubble tracking is used to study four-way coupled turbulent bubbly flow in channels, including bubble collision, coalescence and breakup. Upward and downward vertical channel flows of water at shear Reynolds numbers of 150 and 2000 are examined, with air bubbles of diameter db= 220 µm dispersed within the flows. Additional simulations are performed for the case of refrigerant R134a at a shear Reynolds number of 1154. The ability of the model to predict coalescence and breakup is evaluated, as well as the impact of the flow condition on the two phenomena. Coalescence and breakup are favoured in upflow conditions, with turbulence found to significantly impact the level of bubble interaction. Coalesc...
Bubbly gas-liquid turbulent flow occurs in various industrial applications, for example oil and gas ...
In this work, a discrete bubble model (DBM) is used to investigate the hydrodynamics, coalescence, a...
Model of bubble interactions of breakup and coalescence in a two-dimensional packed-bed reactor has ...
The flow of dispersed microbubbles was studied with an Eulerian‐Lagrangian technique using large edd...
The flow of dispersed microbubbles was studied with an Eulerian–Lagrangian technique using large edd...
Large eddy simulation coupled to a Lagrangian bubble tracker, previously developed to study two-way ...
Gas-liquid bubbly flows exist in many engineering processes. However, limitations in understanding p...
This work investigates microbubble dynamics in four-way (with coalescence) coupled microbubble-laden...
This work investigates microbubble dynamics in four-way (with coalescence) coupled microbubble-laden...
Turbulent liquid–gas vertical channel flows laden with microbubbles are investigated using large edd...
A generalized model for bubble coalescence and breakup has been developed, which is based on a compr...
In bubbly flows, the bubble size distribution dictates the interfacial area available for the interp...
Bubbly flows are commonly used in many industries as found, for example, in boiling water nuclear re...
Liquid-gas multiphase flows occur in many engineering and environmental applications, with the forme...
Bubbly gas-liquid turbulent flow occurs in various industrial applications, for example oil and gas ...
In this work, a discrete bubble model (DBM) is used to investigate the hydrodynamics, coalescence, a...
Model of bubble interactions of breakup and coalescence in a two-dimensional packed-bed reactor has ...
The flow of dispersed microbubbles was studied with an Eulerian‐Lagrangian technique using large edd...
The flow of dispersed microbubbles was studied with an Eulerian–Lagrangian technique using large edd...
Large eddy simulation coupled to a Lagrangian bubble tracker, previously developed to study two-way ...
Gas-liquid bubbly flows exist in many engineering processes. However, limitations in understanding p...
This work investigates microbubble dynamics in four-way (with coalescence) coupled microbubble-laden...
This work investigates microbubble dynamics in four-way (with coalescence) coupled microbubble-laden...
Turbulent liquid–gas vertical channel flows laden with microbubbles are investigated using large edd...
A generalized model for bubble coalescence and breakup has been developed, which is based on a compr...
In bubbly flows, the bubble size distribution dictates the interfacial area available for the interp...
Bubbly flows are commonly used in many industries as found, for example, in boiling water nuclear re...
Liquid-gas multiphase flows occur in many engineering and environmental applications, with the forme...
Bubbly gas-liquid turbulent flow occurs in various industrial applications, for example oil and gas ...
In this work, a discrete bubble model (DBM) is used to investigate the hydrodynamics, coalescence, a...
Model of bubble interactions of breakup and coalescence in a two-dimensional packed-bed reactor has ...