It is well known that the process of vortex breakdown plays an important role in establishing the near-field aerodynamic characteristics of fuel injectors, influencing fuel/air mixing and flame stability. The precise nature of the vortex breakdown can take on several forms, which have been shown in previous papers to include both a precessing vortex core (PVC) and the appearance of multiple helical vortices formed in the swirl stream shear layer. The unsteady dynamics of these particular features can play an important role in combustion induced oscillations. The present paper reports an experimental investigation, using particle image velocimetry (PIV) and hot-wire anemometry, to document variations in the relative strength of PVC and helic...
This thesis deals with the physics of turbulent swirling flows. Large eddy simulation (LES) method i...
The consumption of fossil fuels and their greenhouse emissions have increased research to develop ne...
International audienceIn a swirl-stabilised liquid fuel burner, the fuel spray response to the Prece...
Many fuel injector geometries proposed for lean-premixed combustion systems involve the use of radia...
A modern lean burn combustor for propulsion application using a multi-swirler fuel injector system i...
International audienceDespite being good candidates for the reduction of pollutant emissions from ga...
Large scale coherent structures play an important role in the behavior of the combustion regime insi...
Swirl stabilized combustion is a technology which, for stationary combustion, consumes more than 70 ...
Entrainment is of crucial importance in many engineering applications, while the relevance of swirli...
We report on a study of the impact of coherent helical vortex structures on the shape of the reactio...
Swirl stabilised flows are the most common technology for gas turbine combustion stabilisation. Alth...
An investigation of the three-dimensional flow field of a turbulent swirling jet at RE = 50 . 10 3 g...
The present work is devoted to a comparative study of low- and high-swirl flows in a model lean comb...
This thesis deals with the physics of turbulent swirling flows. Large eddy simulation (LES) method i...
The consumption of fossil fuels and their greenhouse emissions have increased research to develop ne...
International audienceIn a swirl-stabilised liquid fuel burner, the fuel spray response to the Prece...
Many fuel injector geometries proposed for lean-premixed combustion systems involve the use of radia...
A modern lean burn combustor for propulsion application using a multi-swirler fuel injector system i...
International audienceDespite being good candidates for the reduction of pollutant emissions from ga...
Large scale coherent structures play an important role in the behavior of the combustion regime insi...
Swirl stabilized combustion is a technology which, for stationary combustion, consumes more than 70 ...
Entrainment is of crucial importance in many engineering applications, while the relevance of swirli...
We report on a study of the impact of coherent helical vortex structures on the shape of the reactio...
Swirl stabilised flows are the most common technology for gas turbine combustion stabilisation. Alth...
An investigation of the three-dimensional flow field of a turbulent swirling jet at RE = 50 . 10 3 g...
The present work is devoted to a comparative study of low- and high-swirl flows in a model lean comb...
This thesis deals with the physics of turbulent swirling flows. Large eddy simulation (LES) method i...
The consumption of fossil fuels and their greenhouse emissions have increased research to develop ne...
International audienceIn a swirl-stabilised liquid fuel burner, the fuel spray response to the Prece...