The stator-rotor interaction is an important issue in turbomachinery design when the highest performances are targeted. Different characters mark the interaction process in high-pressure or low-pressure turbines depending both on the blade height and on the Reynolds number. For small blade heights, being the stator secondary flows more important, a more complex interaction is found with respect to the high blades, where the stator blade wake dominates. In low-pressure turbines, the stator wake promotes the transition to turbulent boundary layer, allowing for an efficient application of ultra-high lift blades. First, a detailed discussion of the flow physics is proposed for high- and low-pressure turbines. Some off-design conditions ...
The need of a continuous improvement in gas turbine efficiency for propulsion and power generation, ...
Although it is known that the flow field in a turbomachine is unsteady, current design tools do not ...
In the frame of the European research project RECORD, the flow field within a HP axial-flow turbine ...
The stator-rotor interaction is an important issue in turbomachinery design when the highest perfor...
This article investigates the effect of tangential blade loading on the propagation of time-dependen...
AbstractNumerical investigation of the unsteady flow variability driven by rotor-stator interaction ...
An extensive experimental analysis on the subject of unsteady flows in a low aspect-ratio turbine st...
Current methods for designing compressor blades in axial turbomachines assume that the flow through ...
Turbulence analysis in turbomachines is a complex task. The combination of different turbulence sour...
In stator–rotor interaction studies on axial turbines, the attention is commonly focused on the unst...
Unsteady effect of rotor-stator interaction on turbine stage performance was investigated for two ca...
This article presents a study of the development of the three-dimensional flowfield within the rotor...
AbstractThis study concerns the characterization of both the steady and unsteady flows and the analy...
The need of a continuous improvement in gas turbine efficiency for propulsion and power generation, ...
Although it is known that the flow field in a turbomachine is unsteady, current design tools do not ...
In the frame of the European research project RECORD, the flow field within a HP axial-flow turbine ...
The stator-rotor interaction is an important issue in turbomachinery design when the highest perfor...
This article investigates the effect of tangential blade loading on the propagation of time-dependen...
AbstractNumerical investigation of the unsteady flow variability driven by rotor-stator interaction ...
An extensive experimental analysis on the subject of unsteady flows in a low aspect-ratio turbine st...
Current methods for designing compressor blades in axial turbomachines assume that the flow through ...
Turbulence analysis in turbomachines is a complex task. The combination of different turbulence sour...
In stator–rotor interaction studies on axial turbines, the attention is commonly focused on the unst...
Unsteady effect of rotor-stator interaction on turbine stage performance was investigated for two ca...
This article presents a study of the development of the three-dimensional flowfield within the rotor...
AbstractThis study concerns the characterization of both the steady and unsteady flows and the analy...
The need of a continuous improvement in gas turbine efficiency for propulsion and power generation, ...
Although it is known that the flow field in a turbomachine is unsteady, current design tools do not ...
In the frame of the European research project RECORD, the flow field within a HP axial-flow turbine ...