Add to ORKGThis paper summarizes the technical development and validation of a multiphase computational fluid dynamics (CFD) numerical method using the volume-of-fluid (VOF) model and a Lagrangian tracking model which can be employed to analyze general multiphase flow problems with free surface mechanism. The gas-liquid interface mass, momentum and energy conservations are modeled by continuum surface mechanisms. A new solution method is developed such that the present VOF model can be applied for all-speed flow regimes. The objectives of the present study are to develop and verify the fractional volume-of-fluid cell partitioning approach into a predictor-corrector algorithm and to demonstrate the effectiveness of the present innovative approach by si...
This paper presents a multi-scale approach coupling a Eulerian interface-tracking method and a Lagra...
Atomizing gas-liquid flows are used in industrial applications where high interphase heat and mass t...
A liquid jet upon atomization breaks up into small droplets that are orders of magnitude smaller tha...
This paper summarizes the technical development and validation of a multiphase computational fluid d...
The tracking of free surfaces between liquid and gas phases and analysis of the interfacial phenomen...
In this dissertation, numerical methods useful for the simulation of gas-liquid multiphase flows are...
Modeling and simulation of atomization is challenging due to the existence of a wide range of length...
Modeling and simulation of atomization is challenging due to the existence of a wide range of length...
AbstractLiquid jet atomization is an important process in internal combustion engine. This paper pre...
Liquid sprays and droplets play an important role in numerous applications of practical interest inc...
open3siModeling and simulation of atomization is challenging due to the existence of a wide range of...
Numerical simulations are carried out to look at the primary atomization of a 2-D planar liquid jet....
Numerical simulations are carried out to look at the primary atomization of a 2-D planar liquid jet....
In this work, a hybrid Euler-Lagrangian solver for dense spray systems is developed specifically for...
The breakup of a liquid jet into irregular liquid structures and droplets leading to the formation o...
This paper presents a multi-scale approach coupling a Eulerian interface-tracking method and a Lagra...
Atomizing gas-liquid flows are used in industrial applications where high interphase heat and mass t...
A liquid jet upon atomization breaks up into small droplets that are orders of magnitude smaller tha...
This paper summarizes the technical development and validation of a multiphase computational fluid d...
The tracking of free surfaces between liquid and gas phases and analysis of the interfacial phenomen...
In this dissertation, numerical methods useful for the simulation of gas-liquid multiphase flows are...
Modeling and simulation of atomization is challenging due to the existence of a wide range of length...
Modeling and simulation of atomization is challenging due to the existence of a wide range of length...
AbstractLiquid jet atomization is an important process in internal combustion engine. This paper pre...
Liquid sprays and droplets play an important role in numerous applications of practical interest inc...
open3siModeling and simulation of atomization is challenging due to the existence of a wide range of...
Numerical simulations are carried out to look at the primary atomization of a 2-D planar liquid jet....
Numerical simulations are carried out to look at the primary atomization of a 2-D planar liquid jet....
In this work, a hybrid Euler-Lagrangian solver for dense spray systems is developed specifically for...
The breakup of a liquid jet into irregular liquid structures and droplets leading to the formation o...
This paper presents a multi-scale approach coupling a Eulerian interface-tracking method and a Lagra...
Atomizing gas-liquid flows are used in industrial applications where high interphase heat and mass t...
A liquid jet upon atomization breaks up into small droplets that are orders of magnitude smaller tha...