Turbine entry conditions are characterized by unsteady and strongly non-uniform velocity and temperature and pressure fields. The uncertainty and the lack of confidence associated to these conditions require the application of wide safety margins during the design of the turbine cooling systems, which are detrimental for the efficiency of the engine. These issues have been further complicated by the adoption of lean-burn technology in modern aeroengines, identified by many manufacturers as the most promising solution for a significant reduction of NOx emission. Such devices are in fact characterized by a very compact design, whereas the strong swirl component generated by the injector is maintained up to the end of the flametube due to the ...
Strict limits for pollutant emissions by aircraft engines strive the development of new combustion c...
This thesis presents a computational fluid dynamic (CFD) study of high pressure gas turbine blade de...
ABSTRACT INTRODUCTION The three-dimensional, viscous, turbulent, reacting and non-reacting flow char...
Turbine entry conditions are characterized by unsteady and strongly non-uniform velocity, temperatur...
The adoption of lean-burn technology in modern aero-engines influences the already critical aerother...
The accurate prediction of the fluid dynamic conditions at the exit of gas turbine combustors are of...
Recent design trends aim at increasing gas turbine efficiency and specific power while reducing NOx ...
By enhancing the premixing of fuel and air prior to combustion, recently developed lean-burn combust...
Reducing the uncertainties in the prediction of turbine inlet conditions is a crucial aspect to impr...
The paper discusses the migration, the interaction with the blades, and the attenuation of hot strea...
Recently developed lean-burn combustors offer reduced NOx emissions for gas turbines. The flow at ex...
Gas turbine combustors employing a single lean combustion stage represent the next generation of des...
A key challenge in the development of novel, low-emission combustion systems in jet engines is the a...
The drive towards environmentally-friendly gas turbine engines imposes strict design constraints on ...
Modern industrial gas turbines typically employ lean-premix combustors, which can limit pollutant em...
Strict limits for pollutant emissions by aircraft engines strive the development of new combustion c...
This thesis presents a computational fluid dynamic (CFD) study of high pressure gas turbine blade de...
ABSTRACT INTRODUCTION The three-dimensional, viscous, turbulent, reacting and non-reacting flow char...
Turbine entry conditions are characterized by unsteady and strongly non-uniform velocity, temperatur...
The adoption of lean-burn technology in modern aero-engines influences the already critical aerother...
The accurate prediction of the fluid dynamic conditions at the exit of gas turbine combustors are of...
Recent design trends aim at increasing gas turbine efficiency and specific power while reducing NOx ...
By enhancing the premixing of fuel and air prior to combustion, recently developed lean-burn combust...
Reducing the uncertainties in the prediction of turbine inlet conditions is a crucial aspect to impr...
The paper discusses the migration, the interaction with the blades, and the attenuation of hot strea...
Recently developed lean-burn combustors offer reduced NOx emissions for gas turbines. The flow at ex...
Gas turbine combustors employing a single lean combustion stage represent the next generation of des...
A key challenge in the development of novel, low-emission combustion systems in jet engines is the a...
The drive towards environmentally-friendly gas turbine engines imposes strict design constraints on ...
Modern industrial gas turbines typically employ lean-premix combustors, which can limit pollutant em...
Strict limits for pollutant emissions by aircraft engines strive the development of new combustion c...
This thesis presents a computational fluid dynamic (CFD) study of high pressure gas turbine blade de...
ABSTRACT INTRODUCTION The three-dimensional, viscous, turbulent, reacting and non-reacting flow char...