The paper describes an efficient design method for highly loaded transonic compressor stages which considers a balance between efficiency at the design point and stability at part-speed. Because of the high dimensionality of the problem, two levels of model complexity are included in the design method. The first level consists of optimizing the rotor and stator profiles positioned at three stream tubes along the span. The stream tube height and radius variations are included in the computational domain and it is analyzed using a 3D RANS solver incorporating a mixing plane between the components. Due to the relatively low complexity of this quasi-3D analysis, it is fast enough to explore a large design space. With the aid of the resulting pa...
To support an active high-lift system for future civil aircraft small, electrically powered compress...
When designing a transonic multi-stage compressor it is desirable to keep the devel- opment cost low...
Large tip gaps can be found in the rear stages of transonic compressors. If the size of the tip gap ...
The paper describes an efficient design method for highly loaded transonic compressor stages which c...
To design a highly loaded axial transonic compressor several objectives need to be considered simult...
Economical aspects such as reduced specific fuel consumptions and ever growing environmental require...
This paper presents an innovative one-dimensional optimization of a transonic compressor based on th...
The pursuit of efficient, compact and lightweight aircraft engines are important as it leads to a re...
The design of compressor blades has been transformed by the advent of optimization algorithms, allow...
This paper researches the parametric optimization of a two-stage transonic compressor having a large...
It has been shown in many cases that a notable aerodynamic stability enhancement can be achieved usi...
Economic aspects such as reducing specific fuel consumption and ever growing environmental requireme...
The aim of this work is to develop a systematic approach for multidisciplinary high pressure transon...
Abstract: High Speed Compressor Design A long-standing paradox exists in high speed compressor blad...
The approach to design compressor blades has been transformed over the years by the advent of effici...
To support an active high-lift system for future civil aircraft small, electrically powered compress...
When designing a transonic multi-stage compressor it is desirable to keep the devel- opment cost low...
Large tip gaps can be found in the rear stages of transonic compressors. If the size of the tip gap ...
The paper describes an efficient design method for highly loaded transonic compressor stages which c...
To design a highly loaded axial transonic compressor several objectives need to be considered simult...
Economical aspects such as reduced specific fuel consumptions and ever growing environmental require...
This paper presents an innovative one-dimensional optimization of a transonic compressor based on th...
The pursuit of efficient, compact and lightweight aircraft engines are important as it leads to a re...
The design of compressor blades has been transformed by the advent of optimization algorithms, allow...
This paper researches the parametric optimization of a two-stage transonic compressor having a large...
It has been shown in many cases that a notable aerodynamic stability enhancement can be achieved usi...
Economic aspects such as reducing specific fuel consumption and ever growing environmental requireme...
The aim of this work is to develop a systematic approach for multidisciplinary high pressure transon...
Abstract: High Speed Compressor Design A long-standing paradox exists in high speed compressor blad...
The approach to design compressor blades has been transformed over the years by the advent of effici...
To support an active high-lift system for future civil aircraft small, electrically powered compress...
When designing a transonic multi-stage compressor it is desirable to keep the devel- opment cost low...
Large tip gaps can be found in the rear stages of transonic compressors. If the size of the tip gap ...