Aerodynamic noise from a high-speed train bogie with complex geometry under a leading car
Aerodynamic noise from a high-speed train bogie with complex geometry under a leading car
Among the various aerodynamic noise sources associated with high-speed trains, the bogie regions, and particularly the leading bogie, contribute most to the overall noise. To control this noise, insight into the noise generation mechanisms is imperative but relevant studies are limited due to the difficulties of simulating the flow in regions with complex geometry. An investigation is presented of the aerodynamic noise from a bogie under the leading car of a high-speed train using Delayed Detached Eddy Simulation method. A hybrid grid system is utilized to simulate the flow field, which provides input for the far-field noise calculations based on the Ffowcs Williams and Hawkings equation. Analysis shows that the outer bogie components experience large pressure fluctuations as they are immersed in the shear layer detached from upstream, which is therefore identified as playing a critical role in the noise generation. The resulting noise spectra are broadband and dominated by low frequencies. Compared with the bogie, the bogie cavity and train nose emit 5 dB greater sound power for the current geometry. This study improves understanding of the mechanisms behind the generation of aerodynamic noise in train bogies and lays the foundations for future studies of train bogie noise reduction.
Aerodynamic noise, DDES, Ffowcs Williams & Hawkings, Noise source, Train bogie
He, Yuan
c03b2dc1-168a-4ce6-96c8-1d86e8249042
Thompson, David
bca37fd3-d692-4779-b663-5916b01edae5
Hu, Zhiwei
dd985844-1e6b-44ba-9e1d-fa57c6c88d65
January 2024
He, Yuan
c03b2dc1-168a-4ce6-96c8-1d86e8249042
Thompson, David
bca37fd3-d692-4779-b663-5916b01edae5
Hu, Zhiwei
dd985844-1e6b-44ba-9e1d-fa57c6c88d65
He, Yuan, Thompson, David and Hu, Zhiwei
(2024)
Aerodynamic noise from a high-speed train bogie with complex geometry under a leading car.
Journal of Wind Engineering and Industrial Aerodynamics, 244, [105617].
(doi:10.1016/j.jweia.2023.105617).
Abstract
Among the various aerodynamic noise sources associated with high-speed trains, the bogie regions, and particularly the leading bogie, contribute most to the overall noise. To control this noise, insight into the noise generation mechanisms is imperative but relevant studies are limited due to the difficulties of simulating the flow in regions with complex geometry. An investigation is presented of the aerodynamic noise from a bogie under the leading car of a high-speed train using Delayed Detached Eddy Simulation method. A hybrid grid system is utilized to simulate the flow field, which provides input for the far-field noise calculations based on the Ffowcs Williams and Hawkings equation. Analysis shows that the outer bogie components experience large pressure fluctuations as they are immersed in the shear layer detached from upstream, which is therefore identified as playing a critical role in the noise generation. The resulting noise spectra are broadband and dominated by low frequencies. Compared with the bogie, the bogie cavity and train nose emit 5 dB greater sound power for the current geometry. This study improves understanding of the mechanisms behind the generation of aerodynamic noise in train bogies and lays the foundations for future studies of train bogie noise reduction.
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Accepted/In Press date: 29 November 2023
e-pub ahead of print date: 8 December 2023
Published date: January 2024
Additional Information:
Funding Information:
The research described in this work received support from the Ministry of Science and Technology of China through the National Key R&D Programme grant 2016YFE0205200 , ‘Joint research into key technologies for controlling noise and vibration of high-speed railways under extremely complicated conditions’. All simulations were conducted on Iridis5 supercomputer at the University of Southampton.
Funding Information:
The research described in this work received support from the Ministry of Science and Technology of China through the National Key R&D Programme grant 2016YFE0205200, ‘Joint research into key technologies for controlling noise and vibration of high-speed railways under extremely complicated conditions’. All simulations were conducted on Iridis5 supercomputer at the University of Southampton.
Publisher Copyright:
© 2023 The Authors
Keywords:
Aerodynamic noise, DDES, Ffowcs Williams & Hawkings, Noise source, Train bogie
Identifiers
Local EPrints ID: 485551
URI: http://eprints.soton.ac.uk/id/eprint/485551
ISSN: 0167-6105
PURE UUID: 0f7f43cd-e981-40a3-be74-6ae8a3815ee2
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Date deposited: 08 Dec 2023 17:54
Last modified: 18 Mar 2024 02:43
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Author:
Yuan He
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