This work investigates microbubble dynamics in four-way (with coalescence) coupled microbubble-laden turbulent channel flows. Both upflow and downflow of water at a shear Reynolds number Reτ = 150 are considered, where microbubbles, assumed to be non-deformable and spherical, are injected and tracked using a Lagrangian approach. One-way and two-way coupled predictions, used to successfully validate the model, demonstrate different trends in bubble preferential motion. Four-way coupled simulations with coalescence clearly demonstrate that the presence of the bubbles, and collisions between them, have a non-negligible effect on the fluid phase. Simulation results indicate that binary bubble collisions occur at very small angles between the t...
Turbulent bubbly flow is investigated by calculating and quantifying the motion and the action of mi...
Bubbly flows are commonly used in many industries as found, for example, in boiling water nuclear re...
In this paper we examine the mutual interactions between microbubbles and turbulence in vertical cha...
This work investigates microbubble dynamics in four-way (with coalescence) coupled microbubble-laden...
The flow of dispersed microbubbles was studied with an Eulerian‐Lagrangian technique using large edd...
Large eddy simulation coupled to Lagrangian bubble tracking is used to study four-way coupled turbul...
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...
Examining the interaction between microbubbles and turbulence in vertical channel flow is done in th...
Liquid-gas multiphase flows occur in many engineering and environmental applications, with the forme...
Turbulent liquid–gas vertical channel flows laden with microbubbles are investigated using large edd...
The motion and the action of microbubbles in homogeneous and isotropic turbulence are investigated t...
University of Minnesota Ph.D. dissertation. March 2011. Major: Aerospace Engineering and Mechanics. ...
Large eddy simulation coupled with a Lagrangian bubble tracker is used to investigate the dynamics o...
Turbulent bubbly flow is investigated by calculating and quantifying the motion and the action of mi...
Bubbly flows are commonly used in many industries as found, for example, in boiling water nuclear re...
In this paper we examine the mutual interactions between microbubbles and turbulence in vertical cha...
This work investigates microbubble dynamics in four-way (with coalescence) coupled microbubble-laden...
The flow of dispersed microbubbles was studied with an Eulerian‐Lagrangian technique using large edd...
Large eddy simulation coupled to Lagrangian bubble tracking is used to study four-way coupled turbul...
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...
Examining the interaction between microbubbles and turbulence in vertical channel flow is done in th...
Liquid-gas multiphase flows occur in many engineering and environmental applications, with the forme...
Turbulent liquid–gas vertical channel flows laden with microbubbles are investigated using large edd...
The motion and the action of microbubbles in homogeneous and isotropic turbulence are investigated t...
University of Minnesota Ph.D. dissertation. March 2011. Major: Aerospace Engineering and Mechanics. ...
Large eddy simulation coupled with a Lagrangian bubble tracker is used to investigate the dynamics o...
Turbulent bubbly flow is investigated by calculating and quantifying the motion and the action of mi...
Bubbly flows are commonly used in many industries as found, for example, in boiling water nuclear re...
In this paper we examine the mutual interactions between microbubbles and turbulence in vertical cha...