In the framework of the European HeliNOVI project, an acoustic DNW wind tunnel study was conducted into helicopter tail rotor noise. The goal of the tests was to investigate (1) the importance of tail rotor noise for different flight conditions (2) main rotor/tail rotor interaction noise, and (3) tail rotor noise reduction concepts. Besides the conventional measurement techniques, such as an inflow microphone traverse, blade pressure transducers and PIV, an out-of-flow phased microphone array was applied to locate and quantify the different helicopter noise sources. The test results indicate that tail rotor noise is most important for climb and high-speed level flight. Furthermore, it is found that main rotor/tail rotor interactions only ha...
The present paper summarizes the results obtained during the validation phase of the aerodynamic com...
In a major cooperative research program between 8 European partners, a geometrically and dynamically...
In a major cooperative research program between 8 European partners, a 40%-geometrically and dynamic...
In the framework of the European HeliNOVI project, an acoustic DNW wind tunnel study was conducted i...
In the framework of the European HeliNOVI project, an acoustic DNW wind tunnel study was conducted w...
A comprehensive wind tunnel study was conducted in DNW to investigate technologies for reducing nois...
The EU HeliNOVI project is designed to resolve the deficiency in TR noise research and is part of th...
The EU HeliNOVI project was designed to improve the understanding of Tail Rotor (TR) noise reduction...
The paper gives an overview about the HeliNOVI project. Emphasis is given to the description of the ...
Significant advances in understanding, modeling, and controlling helicopter rotor noise have been ma...
The European research project HeliNOVI was aimed at the enhancement of helicopter performance, safet...
Understanding the mechanisms that lead to the production of noise by tail rotors across a broad rang...
The EU HeliNOVI project was designed to improve the understanding of tail rotor (TR) noise reduction...
Significant advances in understanding helicopter noise have been made through several recent major E...
An investigation of helicopter rotor noise at model scale has been conducted in the Langley 4- by 7-...
The present paper summarizes the results obtained during the validation phase of the aerodynamic com...
In a major cooperative research program between 8 European partners, a geometrically and dynamically...
In a major cooperative research program between 8 European partners, a 40%-geometrically and dynamic...
In the framework of the European HeliNOVI project, an acoustic DNW wind tunnel study was conducted i...
In the framework of the European HeliNOVI project, an acoustic DNW wind tunnel study was conducted w...
A comprehensive wind tunnel study was conducted in DNW to investigate technologies for reducing nois...
The EU HeliNOVI project is designed to resolve the deficiency in TR noise research and is part of th...
The EU HeliNOVI project was designed to improve the understanding of Tail Rotor (TR) noise reduction...
The paper gives an overview about the HeliNOVI project. Emphasis is given to the description of the ...
Significant advances in understanding, modeling, and controlling helicopter rotor noise have been ma...
The European research project HeliNOVI was aimed at the enhancement of helicopter performance, safet...
Understanding the mechanisms that lead to the production of noise by tail rotors across a broad rang...
The EU HeliNOVI project was designed to improve the understanding of tail rotor (TR) noise reduction...
Significant advances in understanding helicopter noise have been made through several recent major E...
An investigation of helicopter rotor noise at model scale has been conducted in the Langley 4- by 7-...
The present paper summarizes the results obtained during the validation phase of the aerodynamic com...
In a major cooperative research program between 8 European partners, a geometrically and dynamically...
In a major cooperative research program between 8 European partners, a 40%-geometrically and dynamic...