Correlation between Aerodynamic Noise and Velocity Fluctuation of Tip Leakage Flow of Axial Flow Fan

Hamakawa, Hiromitsu; Shiotsuki, Masatomo; Adachi, Takaaki; Kurihara, Eru

doi:10.4236/ojfd.2012.24a026

OJFD

2012

DOI: 10.4236/ojfd.2012.24a026

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Correlation between Aerodynamic Noise and Velocity Fluctuation of Tip Leakage Flow of Axial Flow Fan

Hiromitsu Hamakawa¹,

Masatomo Shiotsuki²,

Takaaki Adachi³

et al.

Abstract: In the present paper the attention is focused on correlation between fan noise and velocity fluctuations of tip leakage vortex around rotor blade of a low pressure axial flow fan at the maximum pressure operating point. We measured time fluctuating velocity near the rotor tip around the rotor blades by using a hot-wire sensor from a relative flame of reference fixed to the rotor blades. As the results, it is clear that the velocity fluctuation due to tip leakage vortex has weak periodicity and the hump portion… Show more

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2021

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Study on aerodynamic noise of axial flow fan in ship signal cabinet

Zhu¹,

Shu²

2021

J. Phys.: Conf. Ser.

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In order to study the aerodynamic noise characteristics of axial flow fan in the ship signal cabinet, the aerodynamic noise theory analysis and experimental research were carried out. By comparing and analyzing the vibration and noise spectrum of cabinet, it was determined that the noise of cabinet mainly came from the aerodynamic noise of axial flow fan in the cooling unit of rotating cage. The noise control of cabinet was studied by using the optimal design of the fan installation structure and the application of sound-absorbing cotton. The results show that the noise of fan was discrete noise. The noise increased 2.91 dB(A) when the net was installed in the fan inlet, meanwhile, the energy ratio of high-frequency noise (6000 to 14000 Hz) increased significantly. The sound was sharp. The noise of fan became smaller with the decrease of speed. The peak frequencies of fan noise spectrum were the multiple frequency of fundamental frequency and shaft frequency at different speeds. The sound pressure level was the largest at the fundamental frequency. That is, the noise of fan came from its blades. The noise reduction was 4.24 dB(A) by applying the sound-absorbing cotton on the inner wall of cabinet. The effects of noise reduction were obvious in the 200 to 2000 Hz range. The research results can provide theoretical and experimental support for the optimal design of ship signal cabinet.

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Study on aerodynamic noise of axial flow fan in ship signal cabinet

Zhu¹,

Shu²

2021

J. Phys.: Conf. Ser.

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show abstract

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Correlation between Aerodynamic Noise and Velocity Fluctuation of Tip Leakage Flow of Axial Flow Fan

Cited by 1 publication

References 7 publications

Study on aerodynamic noise of axial flow fan in ship signal cabinet

Study on aerodynamic noise of axial flow fan in ship signal cabinet

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