A new method to compute the dispersed phase in a Lagrangian framework is shown in this contribution for computing incompressible bubbly flows. Each bubble is divided dynamically in equivolumetric elements and tracked into the Eulerian mesh for an appropriate assignment of the effect of the bubble in the cell. The coupling between phases is done considering in the momentum equation the interfacial forces along the bubble path during an Eulerian time step. The bouncing of the bubbles between themselves and the wall is modeled with a dynamic soft sphere model. The computational results obtained for different flow conditions are validated with the recently released experimental data on upward pipe flow. The test section used is a 52 mm pipe of ...
Knowledge of bubble dynamics provides a microscale or mesoscale basis to further understand the macr...
For applications involving large bubble volume changes such as in cavitating flows and in bubbly two...
In the computational modeling of two-phase flow, many uncertainties are usually faced in simulations...
In this work the status of computational modeling of bubbly flows is reviewed. The theory of four di...
A mutiscale numerical approach is developed for the investigation of bubbly flows in turbulent envir...
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...
Large eddy simulation coupled with a Lagrangian bubble tracker is used to investigate the dynamics o...
Air-water two-phase flow is present in natural and industrial processes of different nature as nucle...
[[abstract]]A comprehensively theoretical model is developed and numerically solved to investigate t...
University of Minnesota Ph.D. dissertation. March 2011. Major: Aerospace Engineering and Mechanics. ...
A set of two phase flow experiments for different conditions ranging from bubbly flow to cap/slug fl...
Many flow regimes in Nuclear Reactor Safety Research are characterized by multiphase flows, with one...
Gas-liquid bubbly flows exist in many engineering processes. However, limitations in understanding p...
A set of air-water experiments has been performed under isothermal upward concurrent flow conditions...
Knowledge of bubble dynamics provides a microscale or mesoscale basis to further understand the macr...
For applications involving large bubble volume changes such as in cavitating flows and in bubbly two...
In the computational modeling of two-phase flow, many uncertainties are usually faced in simulations...
In this work the status of computational modeling of bubbly flows is reviewed. The theory of four di...
A mutiscale numerical approach is developed for the investigation of bubbly flows in turbulent envir...
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...
Large eddy simulation coupled with a Lagrangian bubble tracker is used to investigate the dynamics o...
Air-water two-phase flow is present in natural and industrial processes of different nature as nucle...
[[abstract]]A comprehensively theoretical model is developed and numerically solved to investigate t...
University of Minnesota Ph.D. dissertation. March 2011. Major: Aerospace Engineering and Mechanics. ...
A set of two phase flow experiments for different conditions ranging from bubbly flow to cap/slug fl...
Many flow regimes in Nuclear Reactor Safety Research are characterized by multiphase flows, with one...
Gas-liquid bubbly flows exist in many engineering processes. However, limitations in understanding p...
A set of air-water experiments has been performed under isothermal upward concurrent flow conditions...
Knowledge of bubble dynamics provides a microscale or mesoscale basis to further understand the macr...
For applications involving large bubble volume changes such as in cavitating flows and in bubbly two...
In the computational modeling of two-phase flow, many uncertainties are usually faced in simulations...