In aeronautical combustion chambers, the ability to simulate two-phase flows gains increasing importance nowadays since it is one of the elements needed for the full understanding and prediction of the combustion process. This matter is motivated by the objective of improving the engine performance and better predicting the pollutant emissions. On the industrial scale, the description of the fuel spray found downstream of the injector is preferably done through Eulerian methods. This is due to the intrinsic statistical convergence of these methods, their natural coupling to the gas phase and their efficiency in terms of High Performance Computing compared to Lagrangian methods. In this thesis, the use of Kinetic-Based Moment Method with an ...
http://ctr.stanford.edu/ResBriefs/2011/International audienceIn this work, the Eulerian simulation o...
Dispersed two-phase flows are ubiquitous in many natural phenomena (cloud formation, volcanic erupti...
The massive amount of aluminum oxide particles carried in the internal flow of solid rocket motors s...
In aeronautical combustion chambers, the ability to simulate two-phase flows gains increasing import...
De nos jours, la simulation des écoulements diphasiques a de plus en plus d’importance dans les cham...
The ability to simulate two-phase flows is of crucial importance for the prediction of internal comb...
The aim of this thesis is to provide an Eulerian modeling for the dispersed phase interacting with u...
The simulation of the polydisperse fuel sprays is of tremendous importance for high-fidelity descrip...
International audienceHigh fidelity modeling and simulation of turbulent dispersed two-phase flows i...
Le contexte général de cette thèse s'inscrit dans le cadre de la modélisation eulérienne instationna...
International audienceThe present work aims at investigating the ability of a Kinetic-Based Moment M...
International audienceTo assist industrial engine design, 3D simulations are increasingly used as th...
http://ctr.stanford.edu/ResBriefs/2011/International audienceIn this work, the Eulerian simulation o...
Dispersed two-phase flows are ubiquitous in many natural phenomena (cloud formation, volcanic erupti...
The massive amount of aluminum oxide particles carried in the internal flow of solid rocket motors s...
In aeronautical combustion chambers, the ability to simulate two-phase flows gains increasing import...
De nos jours, la simulation des écoulements diphasiques a de plus en plus d’importance dans les cham...
The ability to simulate two-phase flows is of crucial importance for the prediction of internal comb...
The aim of this thesis is to provide an Eulerian modeling for the dispersed phase interacting with u...
The simulation of the polydisperse fuel sprays is of tremendous importance for high-fidelity descrip...
International audienceHigh fidelity modeling and simulation of turbulent dispersed two-phase flows i...
Le contexte général de cette thèse s'inscrit dans le cadre de la modélisation eulérienne instationna...
International audienceThe present work aims at investigating the ability of a Kinetic-Based Moment M...
International audienceTo assist industrial engine design, 3D simulations are increasingly used as th...
http://ctr.stanford.edu/ResBriefs/2011/International audienceIn this work, the Eulerian simulation o...
Dispersed two-phase flows are ubiquitous in many natural phenomena (cloud formation, volcanic erupti...
The massive amount of aluminum oxide particles carried in the internal flow of solid rocket motors s...