The work proposes a detailed description of the flow field throughout leaned turbine nozzles and reports a sensitivity analysis with respect to the lean angle. A phenomenological approach focuses the attention on pressure contours distribution on both inside and outside the passage. The study involves both straight and annular cascades mounting a typical intermediate reaction degree section, designed for steam turbines. Blades are built by stacking the same 2D profile along different linear axes, characterized by different angles with respect to the normal or radial direction: 0 deg for prismatic blade and 10 deg, 15 deg, and 20 deg for the leaned ones are considered. Experimental and numerical tests were performed at the nominal in...
This paper presents a study of the three-dimensional flow field within the blade rows of a high-pres...
The effects of positively bowed blade on the aerodynamic performance of annular compressor cascades ...
This thesis describes the novel combination of reverse compound lean, leading edge extension and non...
The work proposes a detailed description of the flow field throughout leaned turbine nozzles and re...
The paper deals with the internal passage and downstream flow field effects produced by the applicat...
The paper proposes a phenomenological interpretation of the effects induced by 3D design techniques ...
Blade lean, i.e. non-radial blade stacking, has been intensively used over the past in the design pr...
This paper introduces an investigation of the effect of radial pressure gradient on the secondary fl...
Three linear cascades of highly loaded, low aspect ratio turbine blades have been tested in detail t...
When steam turbine set runs, the changes of incidence angle could cause the change of the flow loss ...
Recently, the fully three-dimensional design method is applied to the blades of almost all stages in...
For the first time, the effect of the vane lean on the flow through engine-realistic turbine rear st...
International audienceThe present investigation has been initiated to further increase the understan...
Prior to the detailed design of components, turbomachinery engineers must guide a mean-line or throu...
An increase of turbine blade loading by the increase of turning angle makes it possible to reduce th...
This paper presents a study of the three-dimensional flow field within the blade rows of a high-pres...
The effects of positively bowed blade on the aerodynamic performance of annular compressor cascades ...
This thesis describes the novel combination of reverse compound lean, leading edge extension and non...
The work proposes a detailed description of the flow field throughout leaned turbine nozzles and re...
The paper deals with the internal passage and downstream flow field effects produced by the applicat...
The paper proposes a phenomenological interpretation of the effects induced by 3D design techniques ...
Blade lean, i.e. non-radial blade stacking, has been intensively used over the past in the design pr...
This paper introduces an investigation of the effect of radial pressure gradient on the secondary fl...
Three linear cascades of highly loaded, low aspect ratio turbine blades have been tested in detail t...
When steam turbine set runs, the changes of incidence angle could cause the change of the flow loss ...
Recently, the fully three-dimensional design method is applied to the blades of almost all stages in...
For the first time, the effect of the vane lean on the flow through engine-realistic turbine rear st...
International audienceThe present investigation has been initiated to further increase the understan...
Prior to the detailed design of components, turbomachinery engineers must guide a mean-line or throu...
An increase of turbine blade loading by the increase of turning angle makes it possible to reduce th...
This paper presents a study of the three-dimensional flow field within the blade rows of a high-pres...
The effects of positively bowed blade on the aerodynamic performance of annular compressor cascades ...
This thesis describes the novel combination of reverse compound lean, leading edge extension and non...