Comparisons of aerodynamic noise results between computations and experiments for a high-speed train pantograph
Comparisons of aerodynamic noise results between computations and experiments for a high-speed train pantograph
Aerodynamic noise induced by interaction with the air flow becomes particularly important as train speeds increase. For modern electric high-speed trains, one of the main aerodynamic noise sources is the pantograph which normally sits in a cavity on the train roof. A component-based model, based on empirical constants obtained from available literature, is applied in this paper to predict pantograph noise in realistic conditions. The predictions are compared with field measurements obtained by using a microphone array. Comparisons are made for two types of train fitted with different pantographs, running at different speeds. Good agreement of the far-field noise spectrum with the measurements are obtained for both pantographs. The individual contributions from the panhead and knee-joint are analysed. The dominant source is found at the panhead whereas the knee-joint is of less importance. In addition, through the model, a detailed component spectral analysis is presented for the first pantograph.
66 - 72
Liu, Xiaowan
85bbaeb6-7fb2-429b-8f29-3a889480d2fd
Zhang, Jin
89b1a39a-2d6c-48c3-a77b-06bf378f9ece
Squicciarini, Giacomo
c1bdd1f6-a2e8-435c-a924-3e052d3d191e
Hu, Zhiwei
dd985844-1e6b-44ba-9e1d-fa57c6c88d65
Toward, Martin
1d10e993-e6ef-449d-bccb-1f8198169bee
Lurcock, Daniel
84050d36-bf4a-4257-9fb9-c115066aab57
2021
Liu, Xiaowan
85bbaeb6-7fb2-429b-8f29-3a889480d2fd
Zhang, Jin
89b1a39a-2d6c-48c3-a77b-06bf378f9ece
Squicciarini, Giacomo
c1bdd1f6-a2e8-435c-a924-3e052d3d191e
Hu, Zhiwei
dd985844-1e6b-44ba-9e1d-fa57c6c88d65
Toward, Martin
1d10e993-e6ef-449d-bccb-1f8198169bee
Lurcock, Daniel
84050d36-bf4a-4257-9fb9-c115066aab57
Liu, Xiaowan, Zhang, Jin, Squicciarini, Giacomo, Hu, Zhiwei, Toward, Martin and Lurcock, Daniel
(2021)
Comparisons of aerodynamic noise results between computations and experiments for a high-speed train pantograph.
In,
Noise and Vibration Mitigation for Rail Transportation Systems.
.
(doi:10.1007/978-3-030-70289-2_4).
Record type:
Book Section
Abstract
Aerodynamic noise induced by interaction with the air flow becomes particularly important as train speeds increase. For modern electric high-speed trains, one of the main aerodynamic noise sources is the pantograph which normally sits in a cavity on the train roof. A component-based model, based on empirical constants obtained from available literature, is applied in this paper to predict pantograph noise in realistic conditions. The predictions are compared with field measurements obtained by using a microphone array. Comparisons are made for two types of train fitted with different pantographs, running at different speeds. Good agreement of the far-field noise spectrum with the measurements are obtained for both pantographs. The individual contributions from the panhead and knee-joint are analysed. The dominant source is found at the panhead whereas the knee-joint is of less importance. In addition, through the model, a detailed component spectral analysis is presented for the first pantograph.
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Published date: 2021
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Local EPrints ID: 468326
URI: http://eprints.soton.ac.uk/id/eprint/468326
PURE UUID: d6f0370b-867b-48ac-980c-98db0f1f04e5
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Date deposited: 10 Aug 2022 18:08
Last modified: 17 Mar 2024 03:40
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Author:
Xiaowan Liu
Author:
Jin Zhang
Author:
Martin Toward
Author:
Daniel Lurcock
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