Because of the global civil regulation concerning acoustic emission, manufacturers aim to substantially decrease the noise radiated by the low speed fans without degrading their aerodynamic performance. To accomplish this, engineers must evaluate the unsteady aerodynamic sources in the fan rotor responsible for the noise emission. This paper presents the results of the research team’s experimental analysis based on a cause-effect method. The process focuses on the experimental comparison between the novel prototypes of a family of low speed fans and enables the evaluation of the noise sources in the rotor tip near field domain. The near field aerodynamic sources accounted in this work correspond to the zone with high pressure fluctuations amplitude located in the wake region of the rearflow. The team measured the sources at the tip and then correlated them with the fan’s noise emission in the far-field using a Fourier-based methodology. The paper also investigates the differences in human perception of noise emission to the environment using a dot-pattern visualisation. The study concludes that the modified tip configurations have a marked effect on tip-leakage vortex formation by altering the near-wall fluid paths on blade surfaces. The team correlates the modification in rotor noise emission with the control of tip-leakage flows produced by the tip end-plates.
Sound Generation Mechanism in Low Speed Axial Fans / Bianchi, Stefano; Corsini, Alessandro; Sheard, A. G.. - In: THE JOURNAL OF THE ACOUSTICAL SOCIETY OF AMERICA. - ISSN 0001-4966. - ELETTRONICO. - 127:3(2010), pp. 1837-1857. [10.1121/1.3384292]
Sound Generation Mechanism in Low Speed Axial Fans
BIANCHI, STEFANO;CORSINI, Alessandro;
2010
Abstract
Because of the global civil regulation concerning acoustic emission, manufacturers aim to substantially decrease the noise radiated by the low speed fans without degrading their aerodynamic performance. To accomplish this, engineers must evaluate the unsteady aerodynamic sources in the fan rotor responsible for the noise emission. This paper presents the results of the research team’s experimental analysis based on a cause-effect method. The process focuses on the experimental comparison between the novel prototypes of a family of low speed fans and enables the evaluation of the noise sources in the rotor tip near field domain. The near field aerodynamic sources accounted in this work correspond to the zone with high pressure fluctuations amplitude located in the wake region of the rearflow. The team measured the sources at the tip and then correlated them with the fan’s noise emission in the far-field using a Fourier-based methodology. The paper also investigates the differences in human perception of noise emission to the environment using a dot-pattern visualisation. The study concludes that the modified tip configurations have a marked effect on tip-leakage vortex formation by altering the near-wall fluid paths on blade surfaces. The team correlates the modification in rotor noise emission with the control of tip-leakage flows produced by the tip end-plates.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.